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Constitutive modelling and identification of parameters of 316L stainless steel at cryogenic temperatures

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work, a macroscopic material model for simulation two distinct dissipative phenomena taking place in FCC metals and alloys at low temperatures: plasticity and phase transformation, is presented. Plastic yielding is the main phenomenon occurring when the yield stress is reached, resulting in nonlinear response of the material during loading. The phase transformation process leads to creation of two-phase continuum, where the parent phase coexists with the inclusions of secondary phase. An identification of the model parameters, based on uniaxial tension test at very low temperature, is also proposed.
Rocznik
Strony
136--140
Opis fizyczny
Bibliogr. 18 poz., tab., wykr.
Twórcy
autor
  • Institute of Applied Mechanics, Faculty of Mechanical Engineering, Cracow University of Technology, Al. Jana Pawla II 37, 31-864 Kraków, Poland
Bibliografia
  • 1. Abu Al Rub R. K (2004), Material length scales in gradientdependent plasticity/damage and size effects: theory and computation, Ph.D. Thesis, , Lousiana State University, Louisiana, USA.
  • 2. Abu Al Rub R. K, Voyiadjis G.Z. (2003), On the coupling of anisotropic damage and plasticity models for ductile materials, International Journal of Plasticity, 40, 2611-2643.
  • 3. Chaboche, J. (2008), A review of some plasticity and viscoplasticity constitutive theories, International Journal of Plasticity, 24, 1642-1693.
  • 4. Egner H. (2012), On the full coupling between thermo-plasticity and thermo-damage in thermodynamic modeling of dissipative materials, International Journal of Solids and Structures, 34, 61-92.
  • 5. Egner H. (2013), Constitutive modelling of coupled problems of dissipative materials mechanics, Seria Mechanika, Monografia 444, Kraków (in Polish). 6. Egner H., Egner W., Ryś M. (2012), Thermodynamics-based constitutive modeling of coupled dissipative phenomena in engineering materials, Research and Applications in Structural Engineering, Mechanics and Computation – Zingoni, Taylor&Francis Group, London
  • 7. Egner H., Ryś M. (2012), Modeling of coupling between damage and phase transformation in austenitic stainless steel at cryogenic temperatures, Czasopismo Techniczne, 8-M/2012, 22, (in Polish).
  • 8. Egner H., Skoczeń B. (2010), Ductile damage development in twophase materials applied at cryogenic temperatures, International Journal of Plasticity, 26, 488-506.
  • 9. Egner H., Skoczeń B., Ryś M. (2014), Constitutive and numerical modeling of coupled dissipative phenomena in 316L stainless steel at cryogenic temperatures, International Journal of Plasticity, 64, 113-133.
  • 10. Fischer, F.D., Reisner, G., Werner, E., Tanaka, K., Cailletaud, G., Antretter, T. (2000), A new view on transformation induced plasticity (TRIP), International Journal of Plasticity, 16(1-8), 723-748.
  • 11. Garion C., Skoczeń B. (2002), Modeling of plastic strain induced martensitic transformation for cryogenic applications, Journal of Applied Mechanics, 69, 6, 755-762.
  • 12. Garion C., Skoczeń B., Sgobba S. (2006), Constitutive modelling and identification of parameters of the plastic strain induced martensitic transformation in 316 L stainless steel at cryogenic temperatures, International Journal of Plasticity, 22, 7, 1234-1264.
  • 13. Hallberg H., Hakansson P., Ristinmaa M. (2010), Thermomechanically coupled model of diffusionless phase transformation in austenitic steel, International Journal of Solids and Structures, 47, 1580-1591.
  • 14. Hallberg, H., Hakansson, P., Ristinmaa M. (2007), A constitutive model for the formation of martensite in austenitic steels under large strain plasticity, International Journal of Plasticity, 23, 1213-1239.
  • 15. Hecker S. S., Stout M. G., Staudhammer K. P., Smith J. L. (1982), Effects of strain state and strain rate on deformation-induced transformation in 304 stainless steel: Part I. Magnetic measurements and mechanical behaviour. Metallurgical Transactions, A 13A, 619626.
  • 16. Lemaitre H. (1992), A course on damage mechanics. SpringerVerlag, Berlin and New York.
  • 17. Mahnken, R., Schneidt, A. (2010), A thermodynamics framework and numerical aspects for transformation-induced plasticity at large strains, Archives of Applied Mechanics, 80, 229-253.
  • 18. Olson, G. B., Cohen, M. (1975), Kinetics of strain-induced martensitic nucleation, Metallurgical Transactions, 6A, 791-795.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-db0f5c85-40dc-46b6-a3a5-318bcfa2d4e6
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