Hydrogen Evolution from Polycrystalline Iron at a Constant Rate of Heating in Vacuum

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概要

• 論文の詳細を見る

• A method for determining the amount of hydrogen evolved from iron samples using a constant rate of heating in vacuum has been developed. The method consists essentially of recording the flow rate of hydrogen evolved from a sample in a high-vacuum quartz tube, as a function of temperature, while the sample is heated at a constant rate from room temperature to 1000℃. The function is called the hydrogen evolution curve. The hydrogen evolution curves for several iron samples were studied.

• 社団法人応用物理学会の論文
• 1982-06-20

著者

• Takeda Takao

  Department Of Mechanical Engineering The National Defense Academy

• Takeda Takao

  Department Of Anesthesiology University Of Occupational And Environmental Health School Of Medicine

関連論文

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• Hydrogen Evolution from Polycrystalline Iron at a Constant Rate of Heating in Vacuum
• The Effects of Temperature and Carbon Content on Vickers Hardness and Its Anisotropy of Iron Single Crystals

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