CYCLIC VISCOPLASTIC CONSTITUTIVE-EQUATIONS, .1. A THERMODYNAMICALLY CONSISTENT FORMULATION

被引:148
作者
CHABOCHE, JL
机构
[1] ONERA, Chatillon, 92320, 29, Av. de la Division Leclerc
来源
JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME | 1993年 / 60卷 / 04期
关键词
D O I
10.1115/1.2900988
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
Cyclic viscoplastic constitutive equations are increasingly used for the inelastic analysis of structures under severe thermomechanical conditions. The purpose of the paper is to show how the classical models can be modified in order to follow the general principles of thermodynamics with internal variables. Using the restrictive framework of standard generalized materials, the state variables associated to various kinds of kinematic and isotropic hardening are selected. The evolution equations for these internal variables are then formulated in a slightly less restrictive form. For each hardening process, the separation of the total plastic work into energy dissipated as heat and energy stored in the material is discussed in detail.
引用
收藏
页码:813 / 821
页数:9
相关论文
共 35 条
  • [21] Lowe T.C., Miller A.K., Improved Constitutive Equations for Modeling Strain Softening, Parts I and I I, ASME Journal of Engineering Materials and Technology, 106, pp. 337-348, (1983)
  • [22] McDowell D.L., Moosbrugger J.C., A Generalized Rate-Dependent Bounding Surface Model, ASME PVP-129, (1987)
  • [23] Marquis D., Etude Theorique et Verification Experimental d’un Modele de Plasticite Cyclique, (1979)
  • [24] Miller A.K., An Inelastic Constitutive Model for Monotonic Cyclic and Creep Deformation, ASME Journal of Engineering Materials and Technology, 98, 2, (1976)
  • [25] Nouailhas D., A Viscoplastic Modelling Applied to Stainless Steel Behaviour, Second Int. Conf. on Constitutive Laws for Engineering Materials: Theory and Application, pp. 717-724, (1987)
  • [26] Nouailhas D., Unified Modelling of Cyclic Viscoplasticity: Application to Austenitic Stainless Steels, Int. J. of Plasticity, 5, pp. 501-520, (1989)
  • [27] Nouailhas D., Prediction of Ratchetting and Creep Effects at Room Temperature on 304 Stainless Steel, Res Mechanica, 30, pp. 223-242, (1990)
  • [28] Ohno N., Takahuashi Y., Kuwabaka K., Constitutive Modeling of Anisothermal Cyclic Plasticity of 304 Stainless Steel, ASME Journal of Engineering Materials and Technology, 3, pp. 106-114, (1989)
  • [29] Robinson D.N., Constitutive Relationships for Anisotropic High-Temperature Alloys, Int. Seminar on Inelastic Analysis and Life Prediction (SMIRT 7 Post Conference), (1982)
  • [30] Sidoroff F., On the Formulation of Plasticity and Viscoplasticity with Internal Variables, Arch. Mech, 27, 5-6, pp. 807-819, (1975)
1234