C-Mn segregation and its effect on phase transformation and deformation in Fe-Mn-C alloys 被引量：2

C-Mn segregation and its effect on phase transformation and deformation in Fe-Mn-C alloys

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摘要 C-Mn segregation and its effect on phase transformation and plastic deformation in Fe-Mn-C alloys were studied through the calculation of valence electron structure, the microregion composition detection and TEM in-situ dynamic tensile deformation test The experimental results show that in Fe-8Mn-1.2C alloyed austenite, nA of units with C Mn involved is 3 98 times that of units without C involved and 1.4 times that of units with C involved; aCD of units with C-Mn involved is 2 21 times that of units with C involved. In Fe-Mn-C alloyed austenites, there exists microsegrcgation of C-Mn, forming the randomly distributed Fe-Mn-C atomic cluster segregation zone linked with the -C-Mn-C-Mn- strong bond network, which will effectively slow down the motion of atoms and retard the initiation of the slip system and the movement of dislocation, and thus will severely influence the phase transformation and deformation of the alloy

作者朱瑞富吕宇鹏魏涛

机构地区 College of Material Science and Engineering

出处《Science China(Technological Sciences)》 SCIE EI CAS 1997年第6期567-573,共7页 中国科学（技术科学英文版）

基金 Project supported by the Natural Science Foundation of Shandong Province, China

关键词 Fe-Mn-C alloy C-Mn SEGREGATION phase transformation DEFORMATION VALENCE electron structure. Fe-Mn-C alloy, C-Mn segregation, phase transformation, deformation, valence electron structure.

分类号 TG113 [金属学及工艺—物理冶金]

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1997年第6期

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C-Mn segregation and its effect on phase transformation and deformation in Fe-Mn-C alloys 被引量：2

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