ASSUMPTIONS, MODELS, AND COMPUTATIONAL METHODS FOR PLASTICITY

被引：25

作者：

ARMEN, H

机构：

[1] Research Department, Gurmman Aerospace Corporation, Bethpage

来源：

COMPUTERS & STRUCTURES | 1979年 / 10卷 / 1-2期

关键词：

D O I：

10.1016/0045-7949(79)90084-1

中图分类号：

TP39 [计算机的应用];

学科分类号：

081203 ; 0835 ;

摘要：

On the basis of a survey conducted in 1974 [1] on the availability and capability of general purpose programs for plastic analysis, it is safe to assume that there are now a vast body of users of such programs. The objective of this paper is to familiarize these users with the assumptions and models generally employed in describing nonlinear material behavior. The treatment of plasticity within static and dynamic structural analysis is briefly reviewed with the discussion focused on some recent theoretical and computational advances. Some prophetic comments are given that are concerned with the future direction of existing capabilities and problem areas that will benefit from their extensions. © 1979.

引用

页码：161 / 174

页数：14

共 79 条

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[2] Phillips, Sierakowski, On the concept of the yield surface, Acta Mech., 1, pp. 29-35, (1965)
[3] White, Drucker, Effective stress and effective strain in relation to stress theories of plasticity, J. Appl. Phys., 21, 10, pp. 1013-1021, (1950)
[4] Drucker, A more fundamental approach to plastic stress-strain relations, Proc. 1st U.S. National Cong. Appl. Mech., (1952)
[5] Budiansky, A reassessment of deformation theories of plasticity, J. Appl. Mech., 26, (1959)
[6] Bridgman, Studies in Large Plastic Flow and Fracture, (1952)
[7] Hu, Development of a triaxial stress testing machine and triaxial stress experiments, Proc. SESA, 16, pp. 27-37, (1959)
[8] Fung, Burns, Lind, Yield under high hydrostatic pressure, Foundation of Plasticity, (1972)
[9] Lee, Dyanmic plasticity, Nucl. Engng Design, 27, pp. 386-397, (1974)
[10] Sachs, Liu, The flow and fracture characteristics of the aluminum alloy 24ST after alternating tension and compression, Trans. Am. Ins. Mining Engng, 180, (1949)

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