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Języki publikacji
Abstrakty
Some aspects of numerical analysis of problems related to high strain rates with thermal effects are considered. The attention is focused on constitutive modelling that describes the accompanied phenomena like plastic strain localization and softening. The importance of proper formulation of failure criteria is stressed. Also the complexity of computations is discussed.
Czasopismo
Rocznik
Tom
Strony
69--96
Opis fizyczny
Bibliogr. 34 poz., rys., wykr.
Twórcy
autor
autor
autor
autor
- Poznan University of Technology Faculty of Civil and Environmental Engineering Institute of Structural Engineering, Piotrowo 5,60-965 Poznań, Poland, Rusinek@enim.fr
Bibliografia
- 1. Abaqus Version 6.10ef1 Theory Manual. 2010.
- 2. Campbell J.D., The dynamic yielding of mild steel, Acta Metallurgica, 1, 6, 706–710, 1953. SELECTED TOPICS OF HIGH SPEED MACHINING ANALYSIS 95
- 3. Dornowski W., Influence of finite deformations on the growth mechanism of microvoids contained in structural metals, Archives of Mechanics, 51, 1, 71–86, 1999.
- 4. Glema A., Łodygowski T., Sumelka W., Perzyna P., The numerical analysis of the intrinsic anisotropic microdamage evolution in elasto-viscoplastic solids, International Journal of Damage Mechanics, 18, 3, 205–231, 2009.
- 5. Johnson G.R., Cook W.H., A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures, [in:] Proceedings of the sevens international symposium on ballistics, pp. 541–547, The Hague, The Netherlands, 1983.
- 6. Klepaczko J.R., Behavior of rock like materials at high strain rates in compression, International Journal of Plasticity, 6, 415–432, 1990.
- 7. Klepaczko J.R., Rusinek A., Rodr´ıguez–Mart´ınez J.A., Pęcherski R.B., Arias A., Modelling of thermo-viscoplastic behaviour of DH-36 and Weldox 460-E structural steels at wide ranges of strain rates and temperatures, comparison of constitutive relations for impact problems, Mechanics of Materials, 41, 5, 599–621, 2009.
- 8. Lee E.H., Elastic-plastic deformation at finite strain, ASME Journal of Applied Mechanics, 36, 1–6, 1969.
- 9. Łodygowski T., Theoretical and numerical aspects of plastic strain localization, D.Sc. Thesis, Publishing House of Poznan University of Technology, 312, 1996.
- 10. Łodygowski T., Glema A., Sumelka W., Anisotropy induced by evolution of microstructure in ductile material, [in:] 8th World Congress on Computational Mechanics (WCCM8), 5th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2008), Venice, Italy, June 30 – July 5 2008.
- 11. Łodygowski T., Perzyna P., Localized fracture of inelastic polycrystalline solids under dynamic loading process, International Journal Damage Mechanics, 6, 364–407, 1997.
- 12. Łodygowski T., Perzyna P., Numerical modelling of localized fracture of inelastic solids in dynamic loading process, International Journal for Numerical Methods in Engineering,40, 4137–4158, 1997.
- 13. Molinari A., Musquar C., Sutter G., Adiabatic shear banding in high speed machining of Ti-6Al-4V: experiments and modeling, International Journal of Plasticity, 18, 443—459, 2002.
- 14. Nemes J.A., Eftis J., Several features of a viscoplastic study of plate-impact spallation with multidimensional strain, Computers and Structures, 38, 3, 317–328, 1991.
- 15. Nemes J.A., Eftis J., Constitutive modelling of the dynamic fracture of smooth tensile bars, International Journal of Plasticity, 9, 2, 243–270, 1993.
- 16. Perzyna P., The constitutive equations for rate sensitive plastic materials, Quarterly of Applied Mathematics, 20, 321–332, 1963.
- 17. Perzyna P., Fundamental problems in viscoplasticity, Advances in Applied Mechanics, 9, 243–377, 1966.
- 18. Perzyna P., Constitutive modelling for brittle dynamic fracture in dissipative solids, Archives of Mechanics, 38, 725–738, 1986.
- 19. Perzyna P., Internal state variable description of dynamic fracture of ductile solids, International Journal of Solids and Structures, 22, 797–818, 1986.
- 20. Perzyna P., Instability phenomena and adiabatic shear band localization in thermoplastic flow process, Acta Mechanica, 106, 173–205, 1994.
- 21. Perzyna P., The thermodynamical theory of elasto-viscoplasticity, Engineering Transactions, 53, 235–316, 2005.
- 22. Perzyna P., The thermodynamical theory of elasto-viscoplasticity accounting for microshear banding and induced anisotropy effects. Mechanics, 27, 1, 25–42, 2008.
- 23. Rusinek A., Klepaczko J.R., Shear testing of a sheet steel at wide range of strain rates and a constitutive relation with strain-rate and temperature dependence of the flow stress, International Journal of Plasticity, 17, 1, 87–115, 2001.
- 24. Rusinek A., Rodr´ıguez–Mart´ınez J.A., Thermo-viscoplastic constitutive relation for aluminium alloys, modeling of negative strain rate sensitivity and viscous drag effects, Materials and Design, 30, 10, 4377–4390, 2009.
- 25. Rusinek A., Rodr´ıguez–Mart´ınez J.A., Arias A., A thermo-viscoplastic constitutive model for FCC metals with application to OFHC copper, International Journal of Mechanical Sciences, 52, 2, 120–135, 2010.
- 26. Rusinek A., Rodr´ıguez–Mart´ınez J.A., Klepaczko J.R., Pęcherski R.B., Analysis of thermo-visco-plastic behaviour of six high strength steels, Materials and Design, 30, 5, 1748–1761, 2009.
- 27. Rusinek A., Zaera R., Finite element simulation of steel ring fragmentation under radial expansion, International Journal of Impact Engineering, 34, 799—822, 2007.
- 28. Rusinek A., Zaera R., Klepaczko J.R., Constitutive relations in 3-D for a wide range of strain rates and temperatures: Application to mild steels, International Journal of Solids and Structures, 44, 17, 5611–5634, 2007.
- 29. Shima S., Oyane M., Plasticity for porous solids, International Journal of Mechanical Sciences, 18, 285–291, 1976.
- 30. Sima M., ¨Ozel T., Modified material constitutive models for serrated chip formation simulations and experimental validation in machining of titanium alloy Ti-6Al-4V, International Journal of Machine Tools and Manufacture, 50, 943—960, 2010.
- 31. Sumelka W., The Constitutive Model of the Anisotropy Evolution for Metals with Microstructural Defects, Publishing House of Poznan University of Technology, Poznań, Poland, 2009.
- 32. Sumelka W., Łodygowski T., The influence of the initial microdamage anisotropy on macrodamage mode during extremely fast thermomechanical processes, Archive of Applied Mechanics, 81, 12, 1973–1992, 2011.
- 33. Truesdell C., Noll W., The non-linear field theories of mechanics, [in:] Handbuch der Physik, vol. III/3, Springer-Verlag, Berlin, S. Fl¨ugge [Ed.], 1965.
- 34. Zaera R., Fern´andez–S´aez J., An implicit consistent algorithm for the integration of thermoviscoplastic constitutive equations in adiabatic conditions and finite deformations, International Journal of Solids and Structures, 43, 6, 1594–1612, 2006.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPB1-0055-0006