Hydrogen in Trapping States Innocuous to Environmental Degradation of High-strength Steels
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概要
- 論文の詳細を見る
Hydrogen in trapping states innocuous to environmental degradation of the mechanical properties of highstrength steels has been separated and extracted using thermal desorption analysis (TDA) and slow strain rate test (SSRT). The high-strength steel occluding only hydrogen desorbed at low temperature (peak 1), as determined by TDA, decreases in maximum stress and plastic elongation with increasing occlusion time of peak 1 hydrogen. Thus the trapping state of peak 1 hydrogen is directly associated with environmental degradation. The trap activation energy for peak 1 hydrogen is 23.4 kJ/mol, so the peak 1 hydrogen corresponds to weaker binding states and diffusible states at room temperature. In contrast, the high-strength steel occluding only hydrogen desorbed at high temperature (peak 2), by TDA, maintains the maximum stress and plastic elongation in spite of an increasing content of peak 2 hydrogen. This result indicates that the peak 2 hydrogen trapping state is innocuous to environmental degradation, even though the steel occludes a large amount of peak 2 hydrogen. The trap activation energy for peak 2 hydrogen is 65.0 kJ/mol, which indicates a stronger binding state and nondiffusibility at room temperature. The trap activation energy for peak 2 hydrogen suggests that the driving force energy required for stress-induced diffusion during elastic and plastic deformation, and the energy required for hydrogen dragging by dislocation mobility during plastic deformation are lower than the binding energy between hydrogen and trapping sites. The peak 2 hydrogen, therefore, is believed to not accumulate in front of the crack tip and to not cause environmental degradation in spite of being present in amounts as high as 2.9 mass ppm.
- 社団法人 日本鉄鋼協会の論文
- 2003-04-15
著者
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Takai Kenichi
Department Of Engineering And Applied Science Faculty Of Science And Technology Sophia University
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Takai Kenichi
Department Of Mechanical Engineering Faculty Of Science And Technology Sophia University
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WATANUKI Ryu
Department of Mechanical Engineering, Faculty of Science and Technology, Sophia University
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Watanuki Ryu
Department Of Mechanical Engineering Faculty Of Science And Technology Sophia University
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