A generalized Eulerian two-surface cyclic plasticity model for finite strains
10.1007/bf01176983
Crossref journal-article
Springer Science and Business Media LLC
Acta Mechanica (297)
Bibliography

Voyiadjis, G. Z., & Kattan, P. I. (1990). A generalized Eulerian two-surface cyclic plasticity model for finite strains. Acta Mechanica, 81(3–4), 143–162.

Authors 2
  1. G. Z. Voyiadjis (first)
  2. P. I. Kattan (additional)
References 27 Referenced 10
  1. Prager, W.: A new method of analyzing stresses and strains in work-hardening plastic solids. ASME Journal of Applied Mechanics78, 493?496 (1956). (10.1115/1.4011389) / ASME Journal of Applied Mechanics by W. Prager (1956)
  2. Ziegler, H.: A modification of Prager's hardening rule. Quart. of Applied Math.17, 55?65 (1959) (10.1090/qam/104405) / Quart. of Applied Math. by H. Ziegler (1959)
  3. Mroz, Z.: An attempt to describe the behavior of metals under cyclic loads using a more general workhardening model. Acta Mechanica7, 199?212 (1969). (10.1007/BF01176668) / Acta Mechanica by Z. Mroz (1969)
  4. McDowell, D. L.: Simple experimentally motivate cyclic plasticity model. J. Engineering Mechanics, ASCE113 (3), 378?397 (1987). (10.1061/(ASCE)0733-9399(1987)113:3(378)) / J. Engineering Mechanics, ASCE by D. L. McDowell (1987)
  5. McDowell, D. L.: An evaluation of recent developments in hardening and flow ruels for rate-independent, nonproportional cyclic plasticity. J. Applied Mechanics, ASME54, 323?334 (1987). (10.1115/1.3173015) / J. Applied Mechanics, ASME by D. L. McDowell (1987)
  6. Dafalias, Y. F., Popov, E. P.: A model of nonlinearly hardening materials for complex loading. Acta Mechanica21, 173?192 (1975). (10.1007/BF01181053) / Acta Mechanica by Y. F. Dafalias (1975)
  7. Krieg, R. D.: A practical two surface plasticity theory. J. Applied Mechanics42, Trans. ASME97 (Series E), 641?646 (1975). (10.1115/1.3423656) / J. Applied Mechanics by R. D. Krieg (1975)
  8. Dafalias, Y. F., Popov, E. P.: Plastic internal variables formalism of cyclic plasticity. J. Applied Mechanics, ASME43, 645?651 (1976). (10.1115/1.3423948) / J. Applied Mechanics, ASME by Y. F. Dafalias (1976)
  9. Tseng, N. T., Lee, G. C.: Simple plasticity model of, the two-surface type. ASCE J. Engineering Mechanics109 (3), 795?810 (1983). (10.1061/(ASCE)0733-9399(1983)109:3(795)) / ASCE J. Engineering Mechanics by N. T. Tseng (1983)
  10. Klinski, M.: Plasticity theory based on fuzzy sets. J. Engineering Mechanics, ASCE114 (4), 563?582 (1988). (10.1061/(ASCE)0733-9399(1988)114:4(563)) / J. Engineering Mechanics, ASCE by M. Klinski (1988)
  11. Phillips, A., Kasper, R.: On the foundations of thermoplasticity ? an experimental investigation. ASME Journal of Applied Mechanics40, 891?896 (1973). (10.1115/1.3423183) / ASME Journal of Applied Mechanics by A. Phillips (1973)
  12. Phillips, A., Tang, J.-L., Ricciuti, M.: Some new observations on yield surfaces. Acta Mechanica20, 23?39 (1974). (10.1007/BF01374960) / Acta Mechanica by A. Phillips (1974)
  13. Phillips, A., Moon, H.: An experimental investigation concerning yield surfaces and loading surfaces. Acta Mechanica27, 91?102 (1977). (10.1007/BF01180078) / Acta Mechanica by A. Phillips (1977)
  14. Phillips, A., Lee, C.-W.: Yield surfaces and loading surfaces. Experiments and recommendations. Int. J. of Solids and Structures15, 715?729 (1979). (10.1016/0020-7683(79)90069-6) / Int. J. of Solids and Structures by A. Phillips (1979)
  15. Phillips, A., Das, P. K.: Yield surfaces and loading surfaces of Aluminum and Brass: An experimental investigation at room and elevated temperatures. International Journal of Plasticity1, 89?109 (1985). (10.1016/0749-6419(85)90015-4) / International Journal of Plasticity by A. Phillips (1985)
  16. Nemat-Nasser, S.: Decomposition of strain measures and their rates in finite deformation elastoplasticity. Int. J. of Solids and Structures15, 155?166 (1979). (10.1016/0020-7683(79)90019-2) / Int. J. of Solids and Structures by S. Nemat-Nasser (1979)
  17. Nemat-Nasser, S.: On finite plastic flow of crystalline solids and geomaterials. J. Applied Mechanics50, 1114?1126 (1983). (10.1115/1.3167194) / J. Applied Mechanics by S. Nemat-Nasser (1983)
  18. Lee, E. H.: Some comments on elastic-plastic analysis. Int. J. of Solids and Structures17, 859?872 (1981). (10.1016/0020-7683(81)90101-3) / Int. J. of Solids and Structures by E. H. Lee (1981)
  19. Asaro, R. J.: Micromechanics of crystals and polycrystals. Advances in Applied Mechanics23, 1?115 (1983). (10.1016/S0065-2156(08)70242-4) / Advances in Applied Mechanics by R. J. Asaro (1983)
  20. Voyiadjis, G. Z., Kattan, P. I.: Eulerian constitutive model for finite deformation plasticity with anisotropic hardening. Mechanics of Materials7 (4), 279?293 (1989). (10.1016/0167-6636(89)90019-7) / Mechanics of Materials by G. Z. Voyiadjis (1989)
  21. Dienes, J. K.: On the analysis of rotation and stress rate in deforming bodies. Acta Mechanica32, 217?232 (1979). (10.1007/BF01379008) / Acta Mechanica by J. K. Dienes (1979)
  22. Dafalias, Y. F.: Corotational rates for kinematic hardening at large plastic deformations. J. Applied Mech.50, 561?565 (1983). (10.1115/1.3167091) / J. Applied Mech. by Y. F. Dafalias (1983)
  23. Paulun, J. E., Pecherski, R. B.: Study of corotational rate for kinematic hardening in finite deformation plasticity. Arch. Mech.37 (6), 661?667 (1985). / Arch. Mech. by J. E. Paulun (1985)
  24. Khan, A. S., Wang, X.: On non-proportional infinitesimal plastic deformation after finite plastic prestressing and partial unloading. J. Mechanics and Physics of Solids36 (5), 519?535 (1988). (10.1016/0022-5096(88)90008-7) / J. Mechanics and Physics of Solids by A. S. Khan (1988)
  25. Goddard, J. D., Miller, C.: An inverse of the Jaumann derivative and some applications in the rheology of viscoelastic fluids. Rheologica Acta5, 177?184 (1966). (10.1007/BF01982423) / Rheologica Acta by J. D. Goddard (1966)
  26. Dafalias, Y. F.: The concept and application of the bounding surface in plasticity theory. Physical Nonlinearities in Structural, Analysis, pp. 56?63 (Hult, J., Lemaitre, J., eds.), IUTAM Symposium, Senlis, France, Springer-Verlag 1981. (10.1007/978-3-642-81582-9_9) / Physical Nonlinearities in Structural, Analysis / IUTAM Symposium, Senlis by Y. F. Dafalias (1981)
  27. Dafalias, Y. F.: Modelling cyclic plasticity: simplicity versus sophistication. Mechanics of Engineering Materials, pp. 153?178 (Desai, Gallagher, eds.), Wiley 1984.
Dates
Type When
Created 20 years, 6 months ago (Feb. 17, 2005, 11:14 a.m.)
Deposited 4 years, 1 month ago (July 5, 2021, 12:39 a.m.)
Indexed 3 years, 2 months ago (June 8, 2022, 6:52 p.m.)
Issued 35 years ago (Sept. 1, 1990)
Published 35 years ago (Sept. 1, 1990)
Published Print 35 years ago (Sept. 1, 1990)
Funders 0

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@article{Voyiadjis_1990, title={A generalized Eulerian two-surface cyclic plasticity model for finite strains}, volume={81}, ISSN={1619-6937}, url={http://dx.doi.org/10.1007/bf01176983}, DOI={10.1007/bf01176983}, number={3–4}, journal={Acta Mechanica}, publisher={Springer Science and Business Media LLC}, author={Voyiadjis, G. Z. and Kattan, P. I.}, year={1990}, month=sep, pages={143–162} }