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Fundamental-Solution-Based Hybrid Element Model for Nonlinear Heat Conduction Problems with Temperature-Dependent Material Properties

Author

Listed:
  • Hui Wang
  • Ming-Yue Han
  • Fang Yuan
  • Zhao-Ran Xiao

Abstract

The boundary-type hybrid finite element formulation coupling the Kirchhoff transformation is proposed for the two-dimensional nonlinear heat conduction problems in solids with or without circular holes, and the thermal conductivity of material is assumed to be in terms of temperature change. The Kirchhoff transformation is firstly used to convert the nonlinear partial differential governing equation into a linear one by introducing the Kirchhoff variable, and then the new linear system is solved by the present hybrid finite element model, in which the proper fundamental solutions associated with some field points are used to approximate the element interior fields and the conventional shape functions are employed to approximate the element frame fields. The weak integral functional is developed to link these two fields and establish the stiffness equation with sparse and symmetric coefficient matrix. Finally, the algorithm is verified on several examples involving various expressions of thermal conductivity and existence of circular hole, and numerical results show good accuracy and stability.

Suggested Citation

  • Hui Wang & Ming-Yue Han & Fang Yuan & Zhao-Ran Xiao, 2013. "Fundamental-Solution-Based Hybrid Element Model for Nonlinear Heat Conduction Problems with Temperature-Dependent Material Properties," Mathematical Problems in Engineering, Hindawi, vol. 2013, pages 1-8, September.
  • Handle: RePEc:hin:jnlmpe:695457
    DOI: 10.1155/2013/695457
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