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2004 | 14 | 4 | 549-556
Tytuł artykułu

Parameters identification of material models based on the inverse analysis

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents an application of the inverse analysis to the identification of two models: a phase transformation model and a rheological model. The optimization algorithm for the inverse analysis was tested for various techniques of searching for the minimum: derivative-free and gradient methods, as well as genetic algorithms. Simulation results were validated for microalloyed niobium steel. An optimization strategy, which is adequate for the inverse analysis, is suggested.
Rocznik
Tom
14
Numer
4
Strony
549-556
Opis fizyczny
Daty
wydano
2004
otrzymano
2004-06-01
poprawiono
2004-09-01
Twórcy
  • Faculty of Metallurgy and Materials Science, AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Cracow, Poland
autor
  • Faculty of Metallurgy and Materials Science, AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Cracow, Poland
  • Faculty of Metallurgy and Materials Science, AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Cracow, Poland
Bibliografia
  • Bodin A., Sietsma J. and van der Zwaag S. (2001): Flow stress prediction during intercritical deformation of a lowcarbon steel with a rule of mixtures and Fe-simulations. — Scripta Materialia, Vol. 45, No. 8, pp. 875–882.
  • Boyer B. and Massoni E. (1999): Identification of tribological parameters during upsetting tests using inverse analysis with a 2D finite element code, In: Advanced Technology of Plasticity, Vol. I, (M. Geiger, Ed.). — Nuremberg: Univ. of Erlangen, pp. 347–352.
  • Boyer B. and Massoni E.(2001): Inverse analysis for identification of parameters during thermo-mechanical tests. — Proc. Conf. NUMIFORM 2001, Toyohaski, Japan, pp. 281–284.
  • Braasch H. and Estrin Y. (1993): Parameter identification for a two-internal-variable constitutive model using the evolution strategy, In: Material Parameter Estimation for Modern Constitutive Equations (L.A. Bertram, S.B. Brown and A.D. Freed, Eds.). — Fairfield: ASME, ADM, , Vol. 168, pp. 47–56.
  • Forestier R., Massoni E. and Chastel Y. (2002): Estimation of constitutive parameters using an inverse method coupled to a 3D finite element software. — J. Mat. Proc. Techn., Vol. 125–126, pp. 594–601.
  • Gavrus A., Massoni E. and Chenot J.L. (1996): An inverse analysis using a finite element model for identification of rheological parameters. — Proc. Conf. Metal Forming’96, Cracow, Poland, Vol. 60, pp.447–454.
  • Gawąd J. and Szeliga D. (2002): Application of evolutionary algorithms for inverse analysis and computations. — Metal. Foundry Eng., Vol. 28, No. 2, pp. 137–150.
  • Kobayashi S., Oh S.I. and Altan T. (1989): Metal Forming and the Finite Element Method. — Oxford: Oxford University Press.
  • Kondek T., Szeliga D. and Pietrzyk M. (2003): Program for identification of rheological parameters based on the axisymmetrical compression test. — Proc. 10-th Conf. Kom- PlasTech, Wisła-Jawornik, Poland, pp. 207–214 (in Polish).
  • Lenard J.G., M. Pietrzyk and L. Cser (1999): Mathematical and Physical Simulation of the Properties of Hot Rolled Products. — Amsterdam: Elsevier.
  • Pietrzyk M., Kusiak H., Lenard J.G. and Malinowski Z. (1994): Heat exchange between the workpiece and the tool in metal forming processes. — Proc. Conf. FORMABILITY’94, Ostrava, Czech Republic, pp. 329–338.
  • Pietrzyk M. and Kuziak R. (2004): Development of the constitutive law for microalloyed steels deformed in the twophase range of temperatures. — Proc. Conf. Metal Forming 2004, Cracow, Poland (in print).
  • Szeliga D. and Pietrzyk M. (2001): Problem of the starting point generation for the inverse analysis of compression tests. — Metall. Foundry Eng., Vol. 27, No. 2, pp. 167–182.
  • Szeliga D.and Pietrzyk M.(2002): Identification of rheological and tribological parameters, In: Metal Forming Science and Practice (Lenard J.G., Ed.). — Amsterdam: Elsevier, pp. 227–258.
  • Szeliga D., Gawąd J., Kondek T. and PietrzykM. (2003): Identification of parameters of models based on the inverse analysis. — Proc. Conf. Computer methods and systems in scientific research and engineering desing, Cracow, Poland, pp. 761–766 (in Polish).
  • Szyndler D., Pietrzyk M. and Kuziak R.(2001a): Estimation of rheological and friction parameters in hot forming processes as inverse problem. — Proc. Conf. ESAFORM 2001, Liege, Belgium, pp. 191–194.
  • Szyndler D., Pietrzyk M. and Hodgson P.D. (2001b): Identification of parameters in the internal variable constitutive model and friction model for hot forming of steels. — Proc. Conf. NUMIFORM 2001, Toyohaski, Japan, pp. 297–302.
  • Talar J., Szeliga D. and Pietrzyk M. (2002): Application of genetic algorithms for identification of rheological and friction parameters of copper. — Arch. Metall., Vol. 47, No. 1, pp. 27–41.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.bwnjournal-article-amcv14i4p549bwm
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