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CRYSTALLOGRAPHIC ANALYSIS OF HYDROGEN-RELATED FRACTURE IN MEDIUM CARBON MARTENSITIC STEEL

机译：中碳马氏体钢氢相关骨折的结晶分析

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This study investigated crystallographic features of hydrogen-related fracture behavior in a medium carbon steel. With decrease of tempering temperature, elongation of the hydrogen-charged specimen decreased, and the fracture mode changed from transgranular fracture to intergranular fracture at prior austenite grain boundary. The orientation analysis using electron backscatter diffraction revealed that the hydrogen-related fracture surfaces for both transgranular fracture and intergranular fracture were irregular and consisted of small facets parallel to {011} planes of martensite. As the {011} planes are slip planes of martensite, it can be concluded that the hydrogen-related fracture was accompanied by local plastic deformation.

机译：本研究研究了中碳钢中氢相关骨折行为的晶体特征。随着回火温度的降低，氢气带电试样的伸长率下降，并且裂缝模式从先前奥氏体晶界处的静脉骨折变为晶间骨折。使用电子反向散射衍射的取向分析显示，用于转窄骨折和骨间骨折的氢相关骨折表面是不规则的，并且由与马氏体的{011}平面平行的小型组成。由于{011}平面是马氏体的滑坡，可以得出结论，氢相关的骨折伴随着局部塑性变形。

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《International Hydrogen Conference 》|2014年||共8页
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AKINOBU SHIBATA; TAMOTSU MURATA; NOBUHIRO TSUJI;
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中图分类 TK91-53;
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专利

1. Characterization of Hydrogen-Related Fracture Behavior in As-Quenched Low-Carbon Martensitic Steel and Tempered Medium-Carbon Martensitic Steel [J] . Shibata Akinobu, Murata Tamotsu, Takahashi Hiroshi, Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2015 ,第12期

机译：淬火低碳马氏体钢和回火中碳马氏体钢中与氢有关的断裂行为的表征
2. Microstructural and crystallographic features of hydrogen-related fracture in lath martensitic steels [J] . Shibata Akinobu, Momotani Yuji, Murata Tamotsu, Materials Science and Technology: MST: A publication of the Institute of Metals . 2017 ,第13a14期

机译：Lath Martensitic钢中氢相关骨折的微结构和晶体特征
3. Microstructural and Crystallographic Features of Hydrogen-related Crack Propagation in Low Carbon Martensitic Steel [J] . Akinobu Shibata, Hiroshi Takahashi, Nobuhiro Tsuji ISIJ international . 2012 ,第2期

机译：低碳马氏体钢中氢相关裂纹扩展的显微组织和晶体学特征
4. CRYSTALLOGRAPHIC ANALYSIS OF HYDROGEN-RELATED FRACTURE IN MEDIUM CARBON MARTENSITIC STEEL [C] . AKINOBU SHIBATA, TAMOTSU MURATA, NOBUHIRO TSUJI International Hydrogen Conference . 2014

机译：中碳马氏体钢氢相关骨折的结晶分析
5. Quantitative analysis of fatigue behavior, fatigue damage and fatigue fracture surfaces of low carbon bainitic steel (SAE 15B13). [D] . Joenoes, Ahmad Taufik. 1996

机译：低碳贝氏体钢（SAE 15B13）的疲劳行为，疲劳损伤和疲劳断裂表面的定量分析。
6. Optimization of heat treatment parameters of medium carbon steel quenched in different media using Taguchi method and grey relational analysis [O] . O.O. Agboola, P.P. Ikubanni, A.A. Adeleke, 2020

机译：使用TAGUCHI法和灰色关系分析在不同媒体中淬火中碳钢热处理参数的优化
7. Microstructural and Crystallographic Features of Hydrogen-related Crack Propagation in Low Carbon Martensitic Steel [O] . Akinobu Shibata, Hiroshi Takahashi, Nobuhiro Tsuji 2012

机译：低碳马氏体钢中氢相关裂纹传播的微观结构和晶体特征
8. Loss of Fracture Resistance in High Carbon Steel Due to Non-Martensitic Phases. [R] . weimer, r. j. phillips, w. l. 1979

机译：非马氏体相对高碳钢断裂性的损失。

CRYSTALLOGRAPHIC ANALYSIS OF HYDROGEN-RELATED FRACTURE IN MEDIUM CARBON MARTENSITIC STEEL

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