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Laut Norm wird das Spielzeug für ein bzw. zwei Stunden einer Salzsäure mit 0,07 mol / l ausgesetzt, die den Magensaft simuliert. Was sich darin löst, wird dann einer Analyse, meist mit AAS oder ICP, unterzogen.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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Within Europe, children’s playthings are subject to both the toy safety directive and the standard DIN EN 71, which defines, for example, the criteria for testing mechanical and physical properties and organic compounds, electric toy safety, and the upper limits for certain heavy metals and other hazardous substances. This standard dictates that the object be exposed for one or two hours to 0.07 mol/l hydrochloric acid, which simulates gastric juices. The dissolved product is then analysed, usually with AAS or ICP. The disadvantages of this approach are that the sample is destroyed in the process and the tests are very time-consuming.
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