Microtexture, grain boundary character distribution and secondary working embrittlement of high strength IF steels

S.Q. Cao; J.X. Zhang; J.S. Wu

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Microtexture, grain boundary character distribution and secondary working embrittlement of high strength IF steels

机译：高强度IF钢的显微组织，晶界特征分布和二次加工脆化

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The batch annealing (BA) and continuous annealing (CA) of high strength interstitial-free (IF) steel sheets have been simulated. Micro-texture, grain boundary character distribution (GBCD) and secondary working embrittlement (SWE) were investigated using an electron backscatter diffraction (EBSD) technique. The results show that a crack from SWE occurs preferentially at random boundaries, that low-angle and low-SIGMA CSL boundaries can offer resistance to the propagation of SWE cracks. It is suggested that an optimum GBCD described as a high frequency of low-angle or low-SIGMA CSL boundaries and a more discontinuous random boundary network in the microstructure of IF steels can offer the potential for decreasing their ductile-to-brittle transition temperature (DBTT), i.e. reducing their susceptibility to SWE.

机译：模拟了高强度无间隙（IF）钢板的分批退火（BA）和连续退火（CA）。使用电子背散射衍射（EBSD）技术研究了微织构，晶界特征分布（GBCD）和二次加工脆化（SWE）。结果表明，来自SWE的裂纹优先出现在随机边界处，低角度和低SIGMA CSL边界可以为SWE裂纹的扩展提供阻力。建议将最佳的GBCD描述为IF钢的微观结构中的低角度或SIGMA CSL边界的高频率以及更不连续的随机边界网络，这可能会降低其延性-脆性转变温度（ DBTT），即降低其对SWE的敏感性。

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来源
《Materials Science and Engineering. A, Structural Materials》 |2005年第2期|p.203-208|共6页
作者
S.Q. Cao; J.X. Zhang; J.S. Wu;
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作者单位

Key Laboratory of the Ministry of Education for High Temperature Materials and Testing, Shanghai Jiaotong University, Shanghai 200030, China;

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正文语种 eng
中图分类工程材料学;
关键词
Microtexture; Grain boundary character distribution; Secondary working embrittlement; High strength IF steels; Electron backscatter diffraction;

机译：显微组织;晶界特征分布;二次加工脆化;高强度中频钢;电子背散射衍射;

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Microtexture, grain boundary character distribution and secondary working embrittlement of high strength IF steels

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