Menu
- Albertini, C., Cenerini, R., Curioni, S., Montagnani, M.: Dynamic mechanical properties of austenitic stainless steels-fitting of experimental data on constitutive equations. VII SMIRT, August 1983, Chicago, paper L 2/4 53–62.Google Scholar
- Malvern, L. E.: The propagation of longitudinal waves of plastic deformation in a bar of material exhibiting a strain rate effect. Trans. ASME 73, Ser. E, J. Appl. Mech.18, 203–208 (1951).MathSciNetGoogle Scholar
- Perzyna, P.: The constitutive equations for rate sensitive plastic materials. Q. Appl. Math.20, 321–332 (1963).zbMATHMathSciNetGoogle Scholar
- Bodner, S. R., Partom, Y.: Constitutive equations for elastic-viscoplastic strain hardening materials. J. Appl. Mech.42, 2, 385–389 (1975).Google Scholar
- Cernocky, E. P., Krempl, E.: A theory of viscoplasticity based on infinitesimal total strain. Acta Mechanica36, 263–289 (1980).zbMATHCrossRefGoogle Scholar
- Simo, J. C., Ortiz, M.: A unified approach to finite deformation elastoplastic analysis based on the use of hyperelastic consitutive equations. Comput. Meths. Appl. Mech. Engrg.49, 221–245 (1985).zbMATHCrossRefGoogle Scholar
- Hughes, T. J. R.: Numerical implementation of constitutive models: rate-independent deviatoric plasticity. In: Theoretical foundation for large-scale computations of nonlinear material behaviour (Nemat-Nasser, S. et al., eds.), pp. 29–63. Martinus Nijhoff Publishers 1984.Google Scholar
- Donea, J., Youtsos, A. G., Casadei, F.: A stress update algorithm for the theory of viscoplasticity based on total strain and overstress. Proceedings of the International conference on Computational Plasticity, Models, Software and Applications, Barcelona, Spain, April 6–10, 1987, pp. 413–424. Pineridge Press 1987.Google Scholar
- Liu, M. C. M., Krempl, E.: A uniaxial viscoplastic model based on total strain and overstress. J. Mech. Phys. Solids27, 377–391 (1979).zbMATHCrossRefGoogle Scholar
- Casadei, F., Delzano, C., Magonette, G., Halleux, J. P., Verzeletti, G.: Dynamic testing of large AISI-316L steel specimens behaviour using LDTF. Nucl. Eng. Design102, 463–474 (1987).CrossRefGoogle Scholar
- Han, S.: Le comportement d'hystérésis des solides et sa description par un schéma à mémoire discrète. Thèse présentée à l'Institut National Polytechnique de Grenoble, 1985.Google Scholar
![Persamaan Aisi Jrc 5880 Persamaan Aisi Jrc 5880](/uploads/1/2/5/8/125859976/691504701.jpg)
UNIVERSIDADE DE SAO PAULO. ESCOLA DE ENGENHARIA DE SAO CARLOS DEPARTAMENTO DE ESTRUTURAS ANALISE DO COMPORTAMENTO ESTRUTURAL DE VIGAS MISTAS AGO-CONCRETO CONSTITUtDAS POR PERFIS D. PERSAMAAN IC VERTIKAL. 30 Wednesday Mar 2016. Posted by mas'ud elektronik in Uncategorized ≈ Leave a comment. LA78141 =LA78045=TDA8178 =STV9379=STV8172= STV9326=TDA8172. LA78040 STV9302A=STV9302B= AN5522=STV9378=TDA9302H. LA7840 LA7841=LA7845=LA78041.