金属热处理 ›› 2020, Vol. 45 ›› Issue (8): 70-75.DOI: 10.13251/j.issn.0254-6051.2020.08.014

• 材料研究 • 上一篇    下一篇

1000 MPa级高破碎性钢的动态本构模型

闫永明1, 张灵2, 王倩2, 袁伍丰2, 尉文超1, 王毛球1   

  1. 1.钢铁研究总院 特殊钢研究所, 北京 100081;
    2.江麓机电集团有限公司, 湖南 湘潭 411100
  • 收稿日期:2020-06-17 出版日期:2020-08-25 发布日期:2020-09-07
  • 作者简介:闫永明(1986—),男,高级工程师,博士,主要研究方向为金属材料及其热处理,E-mail:yanyongming@nercast.com

Dynamic constitutive model of 1000 MPa high-fragmentation steel

Yan Yongming1, Zhang Ling2, Wang Qian2, Yuan Wufeng2, Yu Wenchao1, Wang Maoqiu1   

  1. 1. Institute for Special Steels, Central Iron and Steel Research Institute, Beijing 100081, China;
    2. Jianglu Machinery & Electronics Group Co. , Ltd. , Xiangtan Hunan 411100, China
  • Received:2020-06-17 Online:2020-08-25 Published:2020-09-07

摘要: 利用SEM、霍普金森杆和拉伸试验机等仪器对3种1000 MPa级高破碎性钢的组织、静态和动态力学性能进行了研究,并拟合了Johnson-Cook动态本构模型。结果表明:3种试验钢均有明显的应变硬化特征,应变速率由0.001 s-1提高至8000 s-1时,1号钢的屈服强度增加546 MPa;2号钢的屈服强度增加434 MPa;3号钢的屈服强度增加667 MPa。3种试验钢也存在明显的温度效应,1号 钢微观组织中未溶碳化物的存在使晶格阻力增大,有效的阻碍了位错运动,500 ℃高温条件下,1号钢的屈服强度为450 MPa,明显高于2号钢和3号钢的屈服强度330 MPa和310 MPa。3种高破碎性试验钢的 Johnson-Cook 方程分别为:σe=(1008+1309.04(εp)0.679 97)(1+0.1498lnε·*)(1-T*1.188 53);σe=(1000+1214.321(εp)0.6112)(1+0.480 15lnε·*)(1-T*1.263 05);σe=(1008+1334.871(εp)0.610 88)(1+0.116 18lnε·*)(1-T*0.992 47)

关键词: Johnson-Cook模型, 动态力学性能, 高破碎性钢, 屈服强度

Abstract: Microstructure, static and dynamic mechanical properties of three different high-fragmentation steel were studied by means of SEM, Hopkinson pressure bar and tensile testing machine and other instruments. Three Johnson-Cook dynamic constitutive models for three 1000 MPa high-fragmentation steels were fitted. The results show that the three experimental steels have obvious strain hardening properties. When the strain rate is increased from 0.001 s-1 to 8000 s-1, the yield strength of No.1 experimental steel is increased by 546 MPa; the yield strength of No.2 experimental steel is increased by 434 MPa; the yield strength of No.3 experimental steel is increased by 667 MPa. The three experimental steels also have obvious temperature effects. The residual carbides in the microstructure of No.1 steel increase the Peirls-Nabarro stress and hinder the dislocation slip. At 500 ℃, the yield strength of the No.1 experimental steel is 450 MPa, which is significantly higher than that of the No.2 and No.3 steels, 330 MPa and 310 MPa.The Johnson-Cook equations of the three experimental high-fragmentation steels are:σe=(1008+1309.04(εp)0.679 97)(1+0.1498lnε·*)(1-T*1.188 53);σe=(1000+1214.321(εp)0.6112)(1+0.480 15lnε·*)(1-T*1.263 05);σe=(1008+1334.871(εp)0.610 88)(1+0.116 18lnε·*)(1-T*0.992 47).

Key words: Johnson-Cook model, dynamic mechanical properties, high-fragmentation steel, yield strength

中图分类号: