论文信息 - The mechanical threshold stress constitutive-strength model description of HY-100 steel

The mechanical threshold stress constitutive-strength model description of HY-100 steel

A generalized three-term mechanical threshold stress (MTS) strength model description, considering athermal, thermal, and strain-hardening contributions to flow stress, is employed to characterize the constitutive stress-strain response of HY-100 steel. Aspects of the MTS framework pertinent to United States Navy HY steels are discussed, and a calibration methodology is presented for determining MTS strength model parameters. In addition, a linear strain-hardening modification to the existing structure-evolution expression (flow-stress saturation) is proposed to better describe the large-strain strain-hardening behavior. Polycrystalline plasticity calculations suggest that the linear-like hardening behavior is a consequence of deformation-path-dependent texture evolution. Calculation results are applied to MTS model stress-strain predictions and, in part, help explain the differences between compression and torsion test data.

[1] D. Kuhlmann-wilsdorf. Theory of workhardening 1934-1984 , 1985 .

[2] R. Hill. The mathematical theory of plasticity , 1950 .

[3] U. F. Kocks. Thermodynamics and kinetics of slip , 1975 .

[4] G. Gray,et al. Constitutive behavior of tantalum and tantalum-tungsten alloys , 1996 .

[5] D. Kuhlmann-wilsdorf,et al. Theory of work-hardening applied to stages III and IV , 1989 .

[6] Y. Tomita. Effect of martensite morphology on mechanical properties of low alloy steels having mixed structure of martensite and lower bainite , 1991 .

[7] W. Dahl,et al. Strain hardening of steels at large strain deformation. Part III: Model description and physical interpretation , 1995 .

[8] U. F. Kocks,et al. Kinetics of flow and strain-hardening☆ , 1981 .

[9] P. Maudlin,et al. Computational anisotropic plasticity for high-rate forming applications , 1996 .

[10] U. F. Kocks. Laws for Work-Hardening and Low-Temperature Creep , 1976 .

[11] W. Dahl,et al. Strain hardening of steels at large strain deformation. Part I: Relationship between strain hardening and microstructures of b.c.c. steels , 1995 .

[12] U. F. Kocks,et al. A constitutive description of the deformation of copper based on the use of the mechanical threshold stress as an internal state variable , 1988 .