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引用本文:�� �� ��î�� ��ʤ�� ������ �����. ��̼CrNiMo��̼��иֵ���ѹ���ٽᾧ��Ϊ[J]. 钢铁研究学报, 2013, 25(9): 30-37
作者姓名:�� �� ��î�� ��ʤ�� ������ �����
作者单位:1. ��������ѧ�������ѧ����ѧԺ, ���� ���� 650093 ; 2. �����о���Ժ�ظ���, ���� 100081
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Hot Compression Recrystallization Behaviours of Low Carbon CrNiMo Carburized Bearing Steel
LIU Gang��YANG Mao-sheng��WANG Sheng-min��WANG Jia-wei��ZHANG Qing-he. Hot Compression Recrystallization Behaviours of Low Carbon CrNiMo Carburized Bearing Steel[J]. Journal of Iron and Steel Research, 2013, 25(9): 30-37
Authors:LIU Gang��YANG Mao-sheng��WANG Sheng-min��WANG Jia-wei��ZHANG Qing-he
Affiliation:1. School of Materials Science and Engineering��Kunming University of Science and Technology, Kunming 650093,Yunnan, China ;2. Institute of Special Steel, Central Iron and Steel Research Institute, Beijing 100081, China
Abstract:To explore the hot compression recrystallization behaviours of low carbon CrNiMo carburized bearing steel, isothermal compression simulation experiment was carried out by the Gleeble 1500D thermal-mechanical simulator at temperatures between 900 and 1050??, strain rates between 0??1, 1 and 10s-1 and deformations among 10%, 30%, 50%. Thermal deformation dynamic recrystallization process was analyzed by grain sizes and true strain-true stress curves in different conditions. Material??s deformation activation energy and hot deformation equation was regressed, the hot working map of material was calculated, and the critical time of static recrystallization was experimented. The results show that, high deformation temperature, low strain rate and large deformation are conducive to the occurrence of dynamic recrystallization. The fine recrystallized grains were abtained at 1050??, 50% deformation and strain rate 1s-1 in this experiment, and the average grain size is 14??97??m; The activation energy of low carbon CrNiMo carburized bearing steel decreases slowly when deformation larger than 30%. It is deduced to 436??016kJ/mol in 50% deformation, and the experimental results are also matched to the hot working map. The material has reached to the dynamic recrystallization thermodynamic condition in 900??, 1s-1, 50% deformation ,and the critical static recrystallization time is 5min after continue heated.
Keywords:carburizing bearing steel   recrystallization   deformation activation energy   hot working map  
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