新型贝氏体钢与30CrNi4Mo钢力学性能和冲击疲劳性能的对比
Comparison of Mechanical Properties and Impact Fatigue Property of New Bainitic Steel and 30CrNi4Mo Steel
摘 要
为了用新型贝氏体钢替代30CrNi4Mo钢,研究了两种钢在不同热处理后的显微组织、力学性能和多次冲击疲劳性能.结果表明:30CrNi4Mo钢经奥氏体化后空冷和油冷+低温回火处理均具有高的强度和良好的冲击韧度;油冷后随回火温度的提高,组织由回火马氏体+残余奥氏体转变为索氏体,油冷+高温回火后具有良好的强韧性配合,且冲击疲劳总寿命高于空冷和油冷+低温回火的;新型贝氏体钢在水冷、油冷和空冷+低温回火后均具有良好的强韧性配合,空冷+低温回火的冲击疲劳寿命高于水冷、油冷+低温回火的;空冷+低温回火状态下新型贝氏体钢多冲疲劳寿命较高,可替代30CrNi4Mo钢用作抗冲击载荷材料.
新型贝氏体钢
冲击疲劳性能
30CrNi4Mo steel
new bainitic steel
impact fatigue property
Abstract
To replace 30CrNi4Mo steel with new bainitic steel,the microstructure,mechanical properties and repeated impact fatigue properties of the two steels after different heat treatments were studied.The results show that the 30CrNi4Mo steel had high tensile strength and impact toughness after austenitizing air-cooling or oil-cooling and low temperature tempering.With the increase of tempering temperature,the microstructure transformed to sorbite from tempered martensite and retained austenite after quenching,the strength and toughness matched well after oil-cooling and high temperature tempering,the impact fatigue life was always higher than that after air-cooling or oil-cooling and low temperature.The new bainitic steel had good matching of strength and toughness after quenching or normalizing and low temperature tempering.The impact fatigue life after normalizing and low temperature tempering was longer than that of after quenching and low temperature tempering.The impact fatigue life of the new bainitic steel was long at the state of air-cooling and low temperature tempering,indicating that it could replace with 30CrNi4Mo steel to be used as impact resistant loading material.
中图分类号 TG156.32
所属栏目 材料性能及其应用
基金项目 陕西省教育厅资助项目(09JK489)
收稿日期 2009/2/8
修改稿日期 2009/8/28
网络出版日期
作者单位点击查看
备注刘志学(1968-),男,陕西大荔人,副教授,硕士.
引用该论文: LIU Zhi-xue,CHENG Ju-qiang,WANG Yuan-hui. Comparison of Mechanical Properties and Impact Fatigue Property of New Bainitic Steel and 30CrNi4Mo Steel[J]. Materials for mechancial engineering, 2010, 34(2): 30~34
刘志学,程巨强,王元辉. 新型贝氏体钢与30CrNi4Mo钢力学性能和冲击疲劳性能的对比[J]. 机械工程材料, 2010, 34(2): 30~34
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参考文献
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【3】航空制造工程手册总编委会.航空制造工程手册·热处理[M].北京:航空工业出版社,1993.
【4】周风云,黄进宏.国产重型钎杆的失效分析[J].机械工程材料,1997,21(3):47-49.
【5】WEBSTER D.Development of a high strength stainless steel with improved toughness and ductility[J].Met Trans,1971,2(8):2097-2104.
【6】RAO D V,THOMES G.Structure-property relations and the design of Fe-4Cr-C base structural steels for high strength and toughness[J].Met Trans A,1980,11(3):441-457.
【7】高文柱,吴 欢,赵永庆.金属材料疲劳裂纹扩展研究综述[J].钛工业进展,2007(12):33-37.
【8】SURESH S,RITCHIE R O.Geometric model for fatigue crack closure induced by fracture surface toughness[J].Met Trans A,1982,13(9):1627-1631.
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