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Inverse Problem in Stochastic Approach to Modelling of Microstructural Parameters in Metallic Materials during Processing

Author

Listed:
  • Konrad Klimczak
  • Piotr Oprocha
  • Jan Kusiak
  • Danuta Szeliga
  • PaweÅ‚ Morkisz
  • PaweÅ‚ PrzybyÅ‚owicz
  • Natalia Czyżewska
  • Maciej Pietrzyk
  • A. M. Bastos Pereira

Abstract

The need for a reliable prediction of the distribution of microstructural parameters in metallic materials during processing was the motivation for this work. The model describing the evolution of dislocation populations, which considers the stochastic aspects of occurring phenomena, was formulated. The validation of the presented model requires the application of proper parameters corresponding to the considered materials. These parameters have to be identified through the inverse analysis, which, on the other hand, uses optimization methods and requires the formulation of the appropriate objective function. In our case, where the model involves the stochastic parameters, it is a crucial task. Therefore, a specific form of the objective function for the inverse analysis was developed using a measure based on histograms. The elaborated original stochastic approach to modeling the phenomena occurring during the thermomechanical treatment of metals was validated on commercially pure copper and selected multiphase steel.

Suggested Citation

  • Konrad Klimczak & Piotr Oprocha & Jan Kusiak & Danuta Szeliga & PaweÅ‚ Morkisz & PaweÅ‚ PrzybyÅ‚owicz & Natalia Czyżewska & Maciej Pietrzyk & A. M. Bastos Pereira, 2022. "Inverse Problem in Stochastic Approach to Modelling of Microstructural Parameters in Metallic Materials during Processing," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-15, April.
    • Handle: RePEc:hin:jnlmpe:9690742
    DOI: 10.1155/2022/9690742
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