Influence of activation energy and sensitivity to hydrogen embrittlement on fatigue strength degradation by irreversible hydrogen in high-strength steels

M. NAKATANI; K. MINOSHIMA

首页> 外文期刊>Fatigue & Fracture of Engineering Materials & Structures >Influence of activation energy and sensitivity to hydrogen embrittlement on fatigue strength degradation by irreversible hydrogen in high-strength steels

【24h】

Influence of activation energy and sensitivity to hydrogen embrittlement on fatigue strength degradation by irreversible hydrogen in high-strength steels

机译：活化能和氢脆敏感性对高强度钢中不可逆氢疲劳强度退化的影响

获取原文

获取原文并翻译 | 示例

开具论文收录证明 >>

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

Fatigue tests were conducted for cold-drawn eutectoid steels having different activation energies for irreversible hydrogen trap sites and sensitivities to hydrogen embrittlement; the purpose was to investigate the mechanism of fatigue strength degradation by irreversible hydrogen. The fatigue strength of a sample with low activation energy was decreased by irreversible hydrogen in the material, whereas the fatigue strength of a sample with high activation energy was not. When the activation energies for irreversible hydrogen were almost equal, a higher sensitivity to hydrogen embrittlement induced fatigue strength degradation by irreversible hydrogen. Therefore, fatigue strength degradation by irreversible hydrogen depends on the activation energy for irreversible hydrogen trap sites and sensitivity to hydrogen embrittlement.

机译：对具有不同活化能的冷拉共析钢进行了疲劳试验，这些活化能用于不可逆的氢陷阱位点和对氢脆的敏感性。目的是研究不可逆氢使疲劳强度降低的机理。材料中不可逆的氢降低了活化能低的样品的疲劳强度，而活化能高的样品的疲劳强度却没有降低。当不可逆氢的活化能几乎相等时，对氢脆的更高的敏感性导致不可逆氢引起的疲劳强度降低。因此，不可逆氢引起的疲劳强度降低取决于不可逆氢陷阱位点的活化能和对氢脆的敏感性。

著录项

来源
《Fatigue & Fracture of Engineering Materials & Structures》 |2011年第5期|p.363-373|共11页
作者
M. NAKATANI; K. MINOSHIMA;
展开▼
作者单位

Department ofMechanical Engineering, University of Hyogo, Hyogo, Japan;

Department of Mechanical Engineering, Osaka University,Osaka, Japan;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
activation energy; cold-drawn eutectoid steel; fatigue strength; hydrogen embrittlement; irreversible hydrogen;

机译：活化能;冷拉共析钢;疲劳强度;氢脆不可逆氢;

相似文献

外文文献
中文文献
专利

1. Detection of Hydrogen Embrittlement in Plated High-Strength Steels with Eddy Currents: Is the Sensitivity Sufficient? [J] . Bellemare J., Menard D., Sirois F. Journal of Nondestructive Evaluation . 2020,第2期

机译：检测涡流电流镀电高强度钢的氢脆：敏感性足以吗？
2. Method for Evaluating Hydrogen Embrittlement of High-Strength Steel Sheets Considering Press Formation and Hydrogen Existence State in Steel [J] . Junichiro Kinugasa, Yosuke Fujita, Kosuke Shibata, ISIJ international . 2021,第4期

机译：考虑压榨形成和钢中的氢气存在状态评价高强度钢板氢脆的方法
3. Method for Evaluating Hydrogen Embrittlement of High-Strength Steel Sheets Considering Press Formation and Hydrogen Existence State in Steel [J] . Junichiro KINUGASA, Yosuke FUJITA, Kosuke SHIBATA, ISIJ international . 2021,第4期

机译：考虑压模和钢中的高强度钢板氢脆评价氢气脆性的方法
4. Influence of Irreversible Hydrogen and Stress Cycle Frequency on the Fatigue Crack Growth Property in High-strength Steel and Hydrogen Visualization [C] . M. Nakatani, H. Fujihara, M. Sakihara International Conference on Mechanical Behavior of Materials . 2011

机译：不可逆氢气和应激循环频率对高强度钢和氢可视化疲劳裂纹生长特性的影响
5. Internal hydrogen embrittlement of high-strength beta-alpha titanium alloys. [D] . Hayes, Sean Paul. 2000

机译：高强度β-alpha钛合金的内部氢脆。
6. Alloy and composition dependence of hydrogen embrittlement susceptibility in high-strength steel fasteners [O] . S. V. Brahimi, S. Yue, K. R. Sriraman -1

机译：高强度钢紧固件中氢脆敏感性的合金和成分依赖性
7. Influence of Irreversible Hydrogen and Stress Cycle Frequency on the Fatigue Crack Growth Property in High-strength Steel and Hydrogen Visualization [O] . Nakatani M., Fujihara H., Sakihara M., 2011

机译：不可逆氢和应力循环频率对高强度钢疲劳裂纹扩展性能的影响及氢的可视化

Influence of activation energy and sensitivity to hydrogen embrittlement on fatigue strength degradation by irreversible hydrogen in high-strength steels

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅