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Keybot 61 Results  www.tour-taxis-residential.com  Page 2
  Pressemitteilung | Helm...  
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Fischer als Arbeitgeber
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FISCHER als werkgever
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FISCHER kui tööandja
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FISCHER kaip darbdavys
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FISCHER jako pracodawca
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Вакансии в FISCHER
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Bir işveren olarak FISCHER
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FISCHER kā darba devējs
  Industrielle Messtechni...  
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Fischer als Arbeitgeber
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FISCHER as an Employer
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FISCHER comme employeur
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Ofertas de empleo en FISCHER
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Lavorate con noi
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FISCHER als werkgever
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FISCHER kui tööandja
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FISCHER kaip darbdavys
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FISCHER jako pracodawca
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  Institute for Scientifi...  
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Die Stärke von IfG liegt sowohl in der Industrie als auch in der Grundlagenforschung
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IfG’s strengths are in both industrial and basic-science applications
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Les forces de l'IfG résident dans les applications industrielles comme scientifiques
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Los puntos fuertes del IfG están en las aplicaciones industriales y de ciencias básicas
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L'efficacia di IfG si attua in applicazioni sia industriali sia di base
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Het IfG heeft een goede reputatie voor zowel industriële als fundamenteel wetenschappelijke toepassingen
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IfG tugevused on nii tööstus- kui ka põhiteaduslikes rakendustes
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IfG stipriosios pusės yra tiek pramoninės, tiek pagrindinės mokslo srityse
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Przyrządy IfG mają zastosowania zarówno przemysłowe, jak i naukowe
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Основное направление работы института IfG заключается в выполнении как прикладных промышленных, так и общих научных задач
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IfG hem endüstriyel hem de temel bilim uygulamalarında güçlüdür
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IfG stiprās puses ir gan rūpnieciskās, gan fundamentālās dabas zinātnēs
  Lösungen: Metallischer ...  
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Feuerverzinkung als Korrosionsschutz
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
  Industrielle Messtechni...  
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Feuerverzinkung als Korrosionsschutz
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
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Hot-Dip Galvanization as Corrosion Protection
  Fachartikel | Helmut Fi...  
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Fischer als Arbeitgeber
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FISCHER comme employeur
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FISCHER als werkgever
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FISCHER kui tööandja
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FISCHER kaip darbdavys
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FISCHER jako pracodawca
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Вакансии в FISCHER
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Bir işveren olarak FISCHER
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FISCHER kā darba devējs
  Industrielle Messtechni...  
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Rechts: Messung auf 10 “bead spacern” mit einer max. Kraft von 10 mN. Das Verhältnis aus bleibender Verformung und maximaler Verformung kann als Maß der Regenerationsfähigkeit betrachtet werden.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
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Fig. 3b: Measurements on 10 bead spacers with max. load of 10 mN. The residual displacement divided by total displacement can be considered the recovery rate.
  Institute for Scientifi...  
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Durch den idealen Mix aus Praxis und theoretischer Lehre ist das lfG stark in Industrie und Wissenschaft gleichermaßen. So gilt es als führend in der Herstellung von Polykapillaroptiken für die Röntgenfluoreszenz.
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An ideal combination of practical and theoretical expertise accounts for the IfG’s strength in both industrial and basic-science applications. For this reason, it is considered a leader in the manufacture of polycapillary optics for X-ray fluorescence.
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Une combinaison idéale d'expertise pratique et théorique explique la force de l'IfG dans les applications industrielles comme scientifiques. Pour cette raison, il est considéré comme un leader dans la fabrication d'optique polycapillaire destinée à la spectrométrie de fluorescence X.
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La fortaleza del IfG se basa en la combinación ideal de experiencia práctica y teórica en aplicaciones industriales y de ciencias básicas. Por esa razón, se le considera líder en la fabricación de sistemas ópticos policapilares para la fluorescencia de rayos X.
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Una combinazione ottimale di competenza teorica e pratica corrispondente all'efficacia di IfG in applicazioni sia industriali sia di base. Per questa ragione, è considerato un leader nella fabbricazione di ottica policapillare per la fluorescenza a raggi X.
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De ideale combinatie van praktische en theoretische kennis is de basis voor de kracht van IfG bij zowel industriële als fundamenteel wetenschappelijke toepassingen. Daarom wordt het beschouwd als leider voor de productie van polycapillaire lenzen voor röntgenfluorescentie.
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Ideaalse praktiliste ja teoreetiliste ekspertiiside kombinatsioon moodustab IfG tugevuse nii tööstuses kui ka loodusteadustes. Sel põhjusel peetakse seda liider polükaapillaarse optika tootmiseks röntgenfluorestsentsi jaoks.
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Idealus praktinių ir teorinių žinių derinys atspindi IfG stiprumą tiek pramonėje, tiek pagrindinėse mokslo srityse. Dėl šios priežasties laikoma polikapilinės optikos gamintoja rentgeno fluorescencijos srityje.
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Dzięki doskonałemu połączeniu wiedzy teoretycznej i praktycznej przyrządy IfG doskonale sprawdzają się zarówno w zastosowaniach przemysłowych, jak i naukowych. Z tego powodu firma IfG jest uznawana za jednego z wiodących producentów polikapilarnych układów optycznych do urządzeń do fluorescencji rentgenowskiej.
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Идеальное сочетание практических навыков и теоретических знаний специалистов института является оптимальным как для решения прикладных промышленных, так и общих научных задач. Благодаря этому институт считается ведущей организацией в сфере производства поликапиллярной оптики для рентгенофлуоресцентных приборов.
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İdeal bir pratik ve teorik uzmanlık kombinasyonu IfG’nin hem endüstriyel hem de temel bilim uygulamalarında güçlü olmasını sağlamaktadır. Bu nedenle, X-ray flüoresans için polikapiler optik üretimi alanında bir lider olarak görülmektedir.
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Ideāla praktisku un teorētisku ekspertīžu kombinācija veido IfG spēku gan industriālajās, gan fundamentālajās zinātnēs. Šā iemesla dēļ tiek uzskatīts par līderi polikapilārās optikas ražošanā rentgena fluorescencei.
  Industrielle Messtechni...  
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Als Material werden gesinterte Carbidhartmetalle verwendet, die in den meisten Fällen hauptsächlich aus Wolframcarbid bestehen. Dazu kommen in sehr geringen Mengen Additive wie Titancarbid, Tantalcarbid, Chromcarbid oder Vanadiumcarbid, die je nach Zusammensetzung die Materialeigenschaften des fertigen Hartmetalls wesentlich beeinflussen.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
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The cemented carbides most often employed industrially are made by sintering grains of tungsten carbide with a metallic binder, frequently cobalt. Tiny amounts of titanium, tantalum, chromium and/or vanadium carbides are also used; depending on the final composition, these additives significantly influence the material properties – and thus the performance – of the finished material.
  Lösungen: Metallischer ...  
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Stahlblech-Dachbaustoffe mit glänzender oder matter Polyesterbeschichtung haben Lackschichten mit einer Dicke von 27-38 µm. Sie gelten als "Dünnschicht-Beschichtungen" und sind in der Regel mit einer schriftlichen Garantie von 10 Jahren versehen.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
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Steel sheet roofing materials coated in gloss or matte polyester typically have inner lacquer layers measuring between 27-38 µm. They are considered “thin-layered coatings” and are generally covered by a written guarantee of 10 years.
  Industrielle Messtechni...  
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Schnell: Ergebnisse in weniger als einer Minute
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Réserver Magnificfrt 9.2 353
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  Industrielle Messtechni...  
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Verglichen mit anderen Methoden ist die Röntgenfluoreszenz-Analyse einfach durchzuführen: Die Probe ist schnell präpariert und als Verbrauchsmaterial werden lediglich kleine Stücke Plastikfolie benötigt, im Gegensatz zu anderen Methoden, die Analysegase wie Argon oder aufbereitetes, reines Wasser einsetzen.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
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The quality of metallic coatings depends heavily on the formulation of the plating bath, which consequently needs to be monitored. Compared with other methods, XRF (x-ray fluorescence) analysis of such solutions is straightforward: sample preparation is quick, and the only consumables required are small pieces of plastic foil, as opposed to other analytical methods where gases (Ar) or purified water are used.
  Industrielle Messtechni...  
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Als Beispiel wurden jeweils 4 Bleche aus den Legierun­gen AlMg3 und AlMgSi0,5 farbeloxiert. Im Ergebnis zeigten sich zwei unterschiedliche Blautöne. Die elektrische Leitfähigkeit der beiden Grundmaterialien weist deutliche Unterschiede auf, wie in Tabelle 1 zu sehen ist.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
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As an example, four sheets each of the alloys AIMg3 and AlMgSi0.5 were color-anodized all together, resulting in two different shades of blue. The electrical conductivity of the two base materials showed significant differences, as seen in Table 1.
  Pressemitteilung | Helm...  
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Im Berufsleben ersetzt es das Notizbuch, den Terminkalender und häufig auch den PC. In der Qualitätssicherung und auf Inspektionen dient das Smartphone zusammen mit der Stiftsonde PHASCOPE® PAINT nun auch als ein Messgerät.
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The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
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The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The smartphone has long supplanted many everyday utensils. At work, it replaces the notebook, the daily planner and – ever more frequently – the PC. Now, for quality assurance and field inspections, a smartphone coupled with the PHASCOPE® PAINT also serves as a complete measuring gauge.
  Industrielle Messtechni...  
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Ein zu hoher Anteil Martensit ist bei der Nutzung als Wasserstoff-Tank allerdings nicht erwünscht, denn an den Martensit-Korngrenzen kann sich Wasserstoff einlagern, was zum Bruch des Materials führen kann (Versprödung oder Kälterissbildung).
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
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Too much martensite is undesirable in steel destined for hydrogen tanks, because hydrogen can settle at the grain boundaries of the martensite (hydrogen embrittle­ment or cold cracking), which can then lead to material failures. Therefore, testing the steel’s martensite content with precise measurements is required to determine its suitability for this purpose.
  Industrielle Messtechni...  
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Die Messung der Leitfähigkeit ist eine schnelle und präzise Methode zur Echtheitsprüfung von Wertobjekten aus Edelmetallen wie z. B. Goldbarren. Zur genauen Bestimmung der Zusammensetzung eignet sich als komplementäres Verfahren die Röntgenfluoreszenz-Analyse (RFA).
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Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
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Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
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Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Measuring the electrical conductivity is a precise yet quick method for testing – non-destructively – the genuineness of valuable items made of precious metals. X-ray fluorescence analysis (XRFA) is a suitable complement for accurately determining their composition. For further information please contact your local FISCHER representative.
  Applikationslabore welt...  
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Alle Applikationslabore sind sowohl untereinander als auch mit Hochschulen, Institutionen und der Wirtschaft bestens vernetzt. Durch den ständigen Wissensaustausch sorgen wir dafür, dass weltweit ein hohes und topaktuelles Know-How sowie bestmögliche Beratung zur Verfügung stehen.
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All of our application laboratories have connections within the Fischer Group as well as with universities, institutions and business. This constant exchange of knowledge ensures access to cutting-edge expertise and exceptional consultation worldwide. Besides providing customized training, either at our Labs or on your company premises, our technical experts are also happy to assist you with interpreting your results.
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Tous nos laboratoires d'application disposent de connexions au sein du Fischer Group ainsi qu'avec des universités, institutions et entreprises. Cet échange constant de connaissances garantit l'accès à une expertise de pointe et un conseil exceptionnel à travers le monde. En plus de fournir une formation personnalisée, dans nos laboratoires ou les locaux de notre entreprise, nos experts techniques se tiennent également à votre disposition pour vous aider à interpréter vos résultats.
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Todos nuestros laboratorios de aplicaciones tienen conexiones dentro del Grupo Fischer, así como con universidades, instituciones y empresas. Este intercambio continuo de conocimiento garantiza el acceso a unos conocimientos expertos avanzados y a una asesoría excepcional en todo el mundo. Además de la formación individualizada en nuestros laboratorios o en las instalaciones de su empresa, nuestros expertos técnicos estarán encantados de ayudarle a interpretar sus resultados.
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Tutti i nostri laboratori applicativi sono collegati al gruppo Fischer, nonché a università, istituzioni e aziende. Questo scambio continuo di conoscenza garantisce l'accesso a competenza all'avanguardia e consulenze eccezionali a livello mondiale. Oltre alla formazione personalizzata presso i nostri laboratori o nei locali dell'azienda, i nostri tecnici esperti saranno lieti di assistervi nell'interpretazione dei risultati.
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Al onze toepassingslaboratoria hebben banden binnen de Fischer Groep en met universiteiten, instituten en het bedrijfsleven. Deze constante kennisuitwisseling garandeert toegang tot geavanceerde expertise en uitzonder-lijke advisering wereldwijd. Naast het aanbieden van aangepaste training, zowel in onze laboratoria als in uw bedrijf, helpen onze technische experts u ook graag bij de interpretatie van uw meetresultaten.
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Kõikidel meie rakenduslaboritel on ühendused Fischeri kontserni, samuti ülikoolide, institutsioonide ja ettevõtete vahel. See pidev teadmiste vahetamine tagab juurdepääsu tipptasemel teadmistele ja erakorralistele konsultatsioonidele kogu maailmas. Meie kohandatud koolituse pakkumine kas meie laborites või ettevõtte ruumides on ka meie tehnilised eksperdid, kes aitavad teil tulemusi tõlgendada.
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Visos mūsų paraiškų laboratorijos jungiasi "Fischer" grupės, taip pat su universitetais, institucijomis ir verslu. Šis nuolatinis žinių mainus užtikrina galimybę naudotis naujausia patirtimi ir išskirtinėmis konsultacijomis visame pasaulyje. Mūsų specialistai taip pat džiaugiasi galėdama suprasti savo rezultatus, be individualizuoto mokymo teikimo mūsų laboratorijose arba jūsų įmonės patalpose.
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Wszystkie nasze laboratoria aplikacyjne współpracują nie tylko z grupą Fischer Group, ale również wieloma uniwersytetami, organizacjami i firmami. Dzięki nieustannej wymianie wiedzy możemy korzystać z najnowocześniejszych technologii i pomocy ekspertów z całego świata. Oprócz specjalistycznych szkoleń prowadzonych w naszych laboratoriach lub w zakładzie klienta, nasi eksperci pomagają również w interpretacji wyników.
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Все исследовательские лаборатории компании тесно взаимодействуют с группой Fischer Group, а также с учебными заведениями, государственными организациями и представителями бизнеса. Такое взаимодействие обеспечивает доступ к данным новейших исследований и позволяет осуществлять обмен знаниями на международном уровне. Кроме индивидуальных курсов обучения, проводимых как в наших лабораториях, так и на объектах заказчика, технические специалисты нашей компании будут рады оказать помощь в анализе результатов измерений.
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Tüm uygulama laboratuvarlarımızın Fischer Group ve ayrıca üniversiteler, enstitüler ve işletmelerle bağlantıları bulunmaktadır. Bu sürekli bilgi alışverişi, dünya genelinde en yeni uzmanlık bilgilerine ve sıra dışı danışmanlığa erişimi mümkün kılmaktadır. Teknik uzmanlarımız özel eğitim sunmanın yanı sıra, elde ettiğiniz sonuçları bizim Laboratuvarlarımızda veya sizin şirket tesislerinizde değerlendirmeye seve seve yardım edeceklerdir.
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Visām mūsu pieteikumu laboratorijām ir savienojumi Fischer grupas ietvaros, kā arī ar universitātēm, iestādēm un uzņēmumiem. Šī pastāvīgā zināšanu apmaiņa nodrošina piekļuvi progresīvām zināšanām un ārkārtas konsultācijām visā pasaulē. Papildus pielāgotu apmācību nodrošināšanai mūsu laboratorijās vai uzņēmuma telpās mūsu tehniskie speciālisti ar prieku palīdzēs jums interpretēt savus rezultātus.
  Industrielle Messtechni...  
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Als Grundmaterial für die Herstellung von Wasserstoff-Tanks dient meist austenitischer Stahl. Das kubisch flächenzentrierte Gefüge von austenitischen Stählen befindet sich jedoch in metastabilem Zustand.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
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Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Austenitic steel is often used as a base material for producing hydrogen storage tanks. However, the face-centred cubic (FCC) crystalline structure of the alloy is only metastable. Indeed, the manufacturing process itself (cold rolling or forming) can cause the FCC crystals to transform into the body-centred tetragonal (BCT) microstructure of martensite.
  Industrielle Messtechni...  
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Das Gerät lässt sich über einen integrierten Touchscreen oder über externe Maus und Tastatur bedienen. Als Betriebssystem wird Microsoft Windows™ CE verwendet – eine aus vielen Anwendungen vertraute Benutzeroberfläche.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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The readings of the probes are presented on a TFT display with a good read-out capability. Direct operation of the unit takes place via an integrated touch screen or with an external keyboard and/or mouse. Microsoft Windows™ CE is used as the operating system, a familiar user interface from many PC programs. The software of the instrument is multilingual and is capable to generate reports in CSV and ASCII format.
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Im Kraftwerksbau wird auf hochbelastete, metallische Bauteile eine sogenannte Cladding-Schicht – ein hochlegierter Stahl – als Oberflächenschutz aufgebracht. Um möglichst lange Standzeiten zur gewährleisten, muss die Beschichtung gleichmäßig aufgebracht werden.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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In power plants, high-alloy steel coatings are bonded onto metal components that are subject to extreme wear and/or corrosion using so-called cladding techniques. For longest service life, it is essential that the coating material is applied with uniform thickness. Continuous monitoring of the thickness is mandatory.
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Im Vergleich zu anderen Beschichtungsprozessen wie etwa Galvanisieren oder Bedampfen ist eine hohe Abscheidungsrate möglich. Das als Draht zugeführte Aluminium wird geschmolzen und als mikrometergroße Partikel durch ein Gebläse Richtung Oberfläche geschleudert, sodass eine widerstandsfähige Schutzschicht entsteht.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Andere, wie die Atomabsorption (AA) sind zerstörend und damit nicht geeignet, jeden einzelnen Lotpunkt zu testen. Die Röntgenfluoreszenz-Methode (RFA) hat sich als ideales Verfahren zur Überwachung der Konzentration aller drei Elemente erwiesen.
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The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
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The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
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The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
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The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
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The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
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The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The small size of the bumps (typically 80μm in diameter) prevents the use of most analytical methods. Others, such as atomic absorption (AA), are destructive and are therefore not suitable for testing each individual bump. However, X-ray fluorescence (XRF), has proven to be an ideal approach for monitoring the concentration of all three elements. Table 1 shows typical measurement results for a SnAgCu solder bump.
  Industrielle Messtechni...  
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Im Vergleich zu anderen Beschichtungsprozessen wie etwa Galvanisieren oder Bedampfen ist eine hohe Abscheidungsrate möglich. Das als Draht zugeführte Aluminium wird geschmolzen und als mikrometergroße Partikel durch ein Gebläse Richtung Oberfläche geschleudert, sodass eine widerstandsfähige Schutzschicht entsteht.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.
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Das POROSCOPE® HV5 von Fischer, ausge­stattet mit einer Rollelektrode, ist die ideale Ausrüstung, um die Durchgängigkeit der Polyethylen-Beschichtung zu überprüfen, welche die Aluminium-Schicht in keim­freien Kartonverpackungen schützt. Die Testmethode beruht darauf, dass alle elektrisch isolierenden Beschichtungswerkstoffe eine sehr viel höhere elektrische Durchschlagsfestigkeit besitzen als Luft.
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FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
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FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
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FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
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FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
FISCHER’s new POROSCOPE® HV5, equipped with a roller electrode, is ideal for monitoring the continuity of the polyethylene coating that protects the aluminium foil in aseptic carton packaging. The test method is based on the fact that all electrically insulating coating materials have a much higher disruptive strength than air does.
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Funktionalität und Minimierung der Betriebskosten spielten bei der Entwicklung des XAN 220 eine zentrale Rolle. Durch den Verzicht auf bewegte Komponenten und damit die konsequente Vermeidung von Verschleißteilen ist das XAN 220 als robustes Gerät für den täglichen Einsatz konzipiert.
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It is sophisticated and elegant, housed within an ancient structure where you can experience a magical and timeless atmosphere: 5-star Hotel Bauer Il Palazzo is within walking distance from the banks of the Grand Canal and established in... show the map
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Functionality and the minimization of running costs took high priority during development of the XAN 220. Designed without moving parts – thus eliminating wear and tear – the XAN 220 is truly a precision instrument meant for real-life, daily use.
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Si presenta sofisticato ed elegante all’interno di un’antica struttura dove vivere un’atmosfera magica e senza tempo, l’Hotel Bauer Il Palazzo è un albergo 5 stelle posto a due passi dalle rive del Canal Grande e ospitato all’interno... visualizza mappa
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Functionality and the minimization of running costs took high priority during development of the XAN 220. Designed without moving parts – thus eliminating wear and tear – the XAN 220 is truly a precision instrument meant for real-life, daily use.
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Functionality and the minimization of running costs took high priority during development of the XAN 220. Designed without moving parts – thus eliminating wear and tear – the XAN 220 is truly a precision instrument meant for real-life, daily use.
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Functionality and the minimization of running costs took high priority during development of the XAN 220. Designed without moving parts – thus eliminating wear and tear – the XAN 220 is truly a precision instrument meant for real-life, daily use.
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Functionality and the minimization of running costs took high priority during development of the XAN 220. Designed without moving parts – thus eliminating wear and tear – the XAN 220 is truly a precision instrument meant for real-life, daily use.
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Aluminium wird gerne für die architektonisch ansprechende Gestaltung von Außenfassaden und anderen, der Witterung ausgesetzten Objekten verwendet. Es gilt als leicht zu verarbeiten und punktet durch sein geringes Gewicht und die langfristige Wartungsfreiheit, erreicht durch die Aufbringung einer schützenden Eloxalschicht.
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Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
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Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
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Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
  Industrielle Messtechni...  
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Durch ihre sehr gute Beständigkeit gegenüber hohen Temperaturen und chemischen Substanzen eignen sich Emailschichten hervorragend als Korrosionsschutz für Kessel und Behälter in der chemischen und pharmazeutischen Industrie.
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Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
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Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
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Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Because it is impervious to high temperatures and chemically reactive substances, vitreous enamel makes an excellent anti-corrosion barrier for the boilers and tanks used in the chemical and pharmaceutical industries. But this protection is only guaranteed if the coating is 100% continuous and has no pores, cracks, or other defects that could allow exchange between the equipment and its contents. This requires a reliable porosity test.
  Industrielle Messtechni...  
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In der Elektronikindustrie werden zur Verhinderung von Kriechströmen und als Schutz vor Feuchtigkeit und anderen Umwelteinflüssen Zweikomponenten-Isolierlacke verwendet. Dabei spielt die richtige Zusammensetzung eine entscheidende Rolle, weshalb für deren Qualitätskontrolle eine zuverlässige Messtechnik benötigt wird.
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In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
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In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
In the electronics industry, two-component conformal coatings are often used to minimize current leakage on PCBs and as protection against humidity and other environmental stressors. Because the exact composition of the polymer determines its final mechanical properties, quality control using a reliable measurement technology is mandatory.
  Industrielle Messtechni...  
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Die Grundkörper werden aus besonders gut bearbeitbaren, günstigen Legierungen gefertigt und anschließend mit dekorativen Schichten überzogen. Dabei müssen sowohl Schicht- als auch Grundwerkstoff Pb- und Cd-frei sein.
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For cost purposes, the metal parts in fashion jewelery and accessories are not always made of solid materials. The underlying forms are made of easily workable, inexpensive alloys which are then plated with decorative coatings. Both the coatings and the substrate materials must be free of Pb and Cd. Therefore, it is most time and cost effective to analyze such base materials as brass and zinc alloys prior to shaping and coating.
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For cost purposes, the metal parts in fashion jewelery and accessories are not always made of solid materials. The underlying forms are made of easily workable, inexpensive alloys which are then plated with decorative coatings. Both the coatings and the substrate materials must be free of Pb and Cd. Therefore, it is most time and cost effective to analyze such base materials as brass and zinc alloys prior to shaping and coating.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
For cost purposes, the metal parts in fashion jewelery and accessories are not always made of solid materials. The underlying forms are made of easily workable, inexpensive alloys which are then plated with decorative coatings. Both the coatings and the substrate materials must be free of Pb and Cd. Therefore, it is most time and cost effective to analyze such base materials as brass and zinc alloys prior to shaping and coating.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
For cost purposes, the metal parts in fashion jewelery and accessories are not always made of solid materials. The underlying forms are made of easily workable, inexpensive alloys which are then plated with decorative coatings. Both the coatings and the substrate materials must be free of Pb and Cd. Therefore, it is most time and cost effective to analyze such base materials as brass and zinc alloys prior to shaping and coating.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
For cost purposes, the metal parts in fashion jewelery and accessories are not always made of solid materials. The underlying forms are made of easily workable, inexpensive alloys which are then plated with decorative coatings. Both the coatings and the substrate materials must be free of Pb and Cd. Therefore, it is most time and cost effective to analyze such base materials as brass and zinc alloys prior to shaping and coating.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
For cost purposes, the metal parts in fashion jewelery and accessories are not always made of solid materials. The underlying forms are made of easily workable, inexpensive alloys which are then plated with decorative coatings. Both the coatings and the substrate materials must be free of Pb and Cd. Therefore, it is most time and cost effective to analyze such base materials as brass and zinc alloys prior to shaping and coating.
  Industrielle Messtechni...  
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Da stößt selbst die beste Zahnhygiene an ihre Grenzen und häufig ist Karies die unerwünschte Begleiterscheinung der ungesunden Lebensweise. Als Folge sind die Entfernung der Kariesstellen und das Einbringen von Füllungen inzwischen alltägliche Praxis.
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Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Enticing snacks and beverages with high sugar and/or acid content are a constant temptation in today’s vast offering of fast and prepared foods. Even the best oral hygiene has trouble keeping up; often, the side effects of unhealthy eating habits are cavities. As a result, the removal of caries and the placement of fillings have become common practice. However, the age of ugly black fillings is coming to an end, as tooth-coloured inlays and onlays of composite resin are replacing their unsightly amalgam precursors.
  Lösungen: Metallischer ...  
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Die PN-EN 508–1.2010 Norm definiert die Mindestanforderung von 275 g/m² Zink als Korrosionsschutz-Beschichtung für solche Dacheindeckungen. Über der Zinkschicht können verschiedene Arten von Lacken verwendet werden, die zusammen die endgültige Witterungsbeständigkeit und Kratzfestigkeit der Beschichtung bestimmen.
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The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
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The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
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The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
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The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
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The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
The norm PN-EN 508 – 1.2010 defines the minimum requirement of 275 g/m² zinc coating for such roof coverings. On top of the galvanization there are different types of lacquers available for use, which, together, determine the coating’s final scratch resistance.
  Industrielle Messtechni...  
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Aluminium wird gerne für die architektonisch ansprechende Gestaltung von Außenfassaden und anderen, der Witterung ausgesetzten Objekten verwendet. Es gilt als leicht zu verarbeiten und punktet durch sein geringes Gewicht und die langfristige Wartungsfreiheit, erreicht durch die Aufbringung einer schützenden Eloxalschicht.
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Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Aluminum is often used for architecturally pleasing building façades and other structures exposed to weathering influences. Lightweight and fairly easy to work, it is also durable and requires little to no maintenance over the long term when effectively protected by an anodized coating. But to ensure the reliability of the corrosion protection, the sealing of the coating must be verified.
  Industrielle Messtechni...  
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Neue Technologien für effiziente und umweltfreundliche Energieversorgungssysteme gewinnen immer mehr an Bedeutung. Ein Bespiel dafür ist die Wasserstofftechnologie, die sowohl als Speichermedium als auch als Treibstoff ein großes Potenzial bietet.
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New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
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New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
  Industrielle Messtechni...  
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Kühlt man Auste­nit jedoch sehr schnell ab ("Abschrecken" des Stahls, um diesen zu härten), so kann sich kein Ferrit bzw. Ze­mentit bilden, da es gar nicht erst zu einer entsprechen­den Diffusion des Kohlenstoffs kommt. Als Folge dieser diffusionslosen Transformation bildet sich ebenfalls Martensit.
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Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
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Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
Also dropping below the MS (martensite start) temperature can be problematic. When allowed to cool slowly, the austenite transforms into a mixture of ferrite and cementite. But in a rapid cooling process (i.e. quenching, employed to harden the steel), there is no time for the carbon atoms to diffuse out of the crystalline structure in large enough quantities to form ferrite and cementite, resulting in martensite.
  Industrielle Messtechni...  
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Neue Technologien für effiziente und umweltfreundliche Energieversorgungssysteme gewinnen immer mehr an Bedeutung. Ein Bespiel dafür ist die Wasserstofftechnologie, die sowohl als Speichermedium als auch als Treibstoff ein großes Potenzial bietet.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
  Industrielle Messtechni...  
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Neue Technologien für effiziente und umweltfreundliche Energieversorgungssysteme gewinnen immer mehr an Bedeutung. Ein Bespiel dafür ist die Wasserstofftechnologie, die sowohl als Speichermedium als auch als Treibstoff ein großes Potenzial bietet.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
New technologies have become more important than ever for developing efficient and clean energy supply systems. Hydrogen technology is one example that holds high potential both as an accumulator and as a fuel. However, cryogenic liquid hydrogen is typically stored in special steel tanks – a circumstance that presents its own safety challenges: Should the structure of the tank fail in any way, the hydrogen can escape uncontrollably and form inflammable mixtures with other elements like oxygen present in the air. Therefore, material testing is absolutely essential in any quality control process for tanks used to store liquid hydrogen.
  Industrielle Messtechni...  
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Da in den Münz-Legierungen sowohl leichte als auch schwere Elemente vorkommen, wird zum einen ein Messsystem benötigt, welches einen breiten Elementbereich abdeckt, zum anderen eine leistungsfähige Messroutine, um aussagekräftige Messergebnisse zu erzielen.
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When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
Compare text pagesCompare HTM pagesOpen source URLOpen target URLDefine helmut-fischer.fr as primary domain
When researching the origin of antique coins, scientists use a variety of information sources. The smelting process or the ores used in minting for example contain information about the origin or the age of the coin. However, one needs to find ways to retrieve this information out of these often precious and rare coins without damaging them. But because coin alloys always contain both light and heavy elements, to gain meaningful results the researchers need a determination method that covers a wide range of elements and employs an efficient measurement routine.
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