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A note on strain localization for a class of non-associative plasticity rules

Bemerkungen zur Lokalisierung der Verformungen für eine Klasse von nicht assoziierten plastischen Fließgesetzen

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Summary

Explicit solutions for the formation of discontinuity bands are obtained, for a class of non-associative flow rules. Specialization to particular yield functions for pressure sensitive, dilatant or compactive materials is given.

Übersicht

Es werden explizite Lösungen für die Bildung von Unstetigkeitsflächen bei einer Klasse von nicht assoziierten plastischen Fließgesetzen hergeleitet. Diese werden insbesondere für einige spezielle Fließgesetze diskutiert, die zur Beschreibung von druckempfindlichen, dilatierenden oder kontrahierenden Materialien geeignet sind.

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References

  1. Rudnicki, J. W.; Rice, J. R.: Conditions for the localization of deformations in pressure-sensitive dilatant materials. J. Mech. Phys. Sol. 23 (1975) 371–394

    Google Scholar 

  2. Rice, J. R.: The localization of plastic deformation. In: Koiter, W. T. (ed.) Theoretical and applied mechanics, pp. 207–220. Amsterdam: North-Holland 1976

    Google Scholar 

  3. Rice, J. R.; Rudnicki, J. W.: A note on some features of the theory of localization of deformation. Int. J. Sol. Struct. 16 (1980) 597–605

    Google Scholar 

  4. Vardoulakis, I.: Equilibrium theory of shear bands in plastic bodies. Mech. Res. Comm. 3 (1976) 209–214

    Google Scholar 

  5. Hadamard, J.: Leçons sur la propagation des ondes et les equations de l'hydrodynamique. Paris: Hermann 1903

    Google Scholar 

  6. Thomas, T. Y.: Plastic flows and fracture of solids. New York: Academic Press 1961

    Google Scholar 

  7. Hill, R.: Acceleration waves in solids. J. Mech. Phys. Sol. 10 (1962) 1–16

    Google Scholar 

  8. Mandel, J.: Conditions de stabilite et postulat de Drucker. In: Kravtchenko, J.; Sirieys, P. M. (eds.) Rheology and soil mechanics, pp. 58–68. Berlin: Springer 1966

    Google Scholar 

  9. Bigoni, D.; Hueckel, T.: On uniqueness and strain localization in plane strain and plane stress elastoplasticity. Mech. Res. Comm. 17 (1990) 17–23

    Google Scholar 

  10. Bigoni, D.; Hueckel, T.: Uniqueness versus localization in associative and non-associative elastoplasticity (submitted)

  11. Mróz, Z.: Non-associated flow laws in plasticity. J. de Mècanique 2 (1963) 21–42

    Google Scholar 

  12. Hueckel, T.; Maier, G.: Incremental boundary value problems in the presence of coupling of elastic and plastic deformations: a rock mechanics oriented theory. Int. J. Sol. Struct. 13 (1977) 1–15

    Google Scholar 

  13. Maier, G.; Hueckel, T.: Non associated and coupled flow-rules of elastoplasticity for rock-like materials. Int. J. Rock Mech. Min. Sci. 16 (1979) 77–92

    Google Scholar 

  14. Raniecki, B.; Bruhns, O. T.: Bounds to bifurcation stresses in solids with non-associated plastic flow law at finite strain. J. Mech. Phys. Sol. 29 (1981) 153–172

    Google Scholar 

  15. Bigoni, D.; Laudiero, F.: The quasi-static finite cavity expansion in a non-standard elasto-plastic medium. Int. J. Mech. Sci. 31 (1990) 825–837

    Google Scholar 

  16. Prevost, J. H.: Localization of deformations in elastic-plastic solids. Int. J. Num. Anal. Meth. Geomech. 8 (1984), 187–196

    Google Scholar 

  17. Hueckel, T.: Coupling of elastic and plastic deformation of bulk solids. Meccanica 11 (1976) 227–235

    Google Scholar 

  18. Lade, P. V.; Duncan, J. M.: Cubical triaxial tests on cohesionless soil. Proc. ASCE: SM. J. Soil Mech. Found. Div. 99 (1973) 793–812

    Google Scholar 

  19. Lade, P. V.; Duncan, J. M.: Elastoplastic stress-strain theory for cohesionless soil. Proc. ASCE: GT. J. Geot. Eng. Div. 101 (1975) 1037–1053

    Google Scholar 

  20. Ortiz, M.; Leroy, Y.; Needelman, A.: A finite element method for localized failure analysis. Comp. Meths. Appl. Mech. Engrg. 61 (1987) 189–214

    Google Scholar 

  21. Roscoe, K.; Burland, J.: On generalized stress-strain behaviour of wet clay. In: Haymann, J.; Leckie, F. A. A. (eds.) Engineering plasticity. pp. 535–609 Cambridge University Press 1968

  22. Ottosen, N. S.: A failure criterion for concrete. Proc. ASCE: EM. J. Eng. Mech. Div. 103 (1977) 527–535

    Google Scholar 

  23. Bresler, B.; Pister, K. S.: Strength of concrete under combined stresses. J. American Concrete Inst. 30 (1958) 321–345

    Google Scholar 

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Authors and Affiliations

  1. Istituto di Scienza delle Costruzioni Facolta' di Ingegueria, Universita' di Bologna, viale Risorgimento 2, I-40136, Bologna, Italy

    D. Bigoni (Graduate Student)

  2. Dept. of Civil and Environmental Engineering, Duke University, 27706, Durham, North Carolina, USA

    T. Hueckel (Associate Prof.)

Authors
  1. D. Bigoni
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  2. T. Hueckel
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Bigoni, D., Hueckel, T. A note on strain localization for a class of non-associative plasticity rules. Ing. arch 60, 491–499 (1990). https://doi.org/10.1007/BF00541905

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  • DOI: https://doi.org/10.1007/BF00541905

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