Improving Technological Effectiveness of Computational Techniques of the Applied Thermomechanics by Their Computerization

Yu. S. Postolnik; I. A. Pavlyuchenkov; N. V. Andrianov

doi:10.1615/HeatTransRes.v37.i2.80

Heat Transfer Research

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ISSN Print: 1064-2285

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Improving Technological Effectiveness of Computational Techniques of the Applied Thermomechanics by Their Computerization

Volume 37, Issue 2, 2006, pp. 175-182

DOI: 10.1615/HeatTransRes.v37.i2.80

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Yu. S. Postolnik
Dneprodzerzhinsk State Technical University, Dneprodzerzhinsk, Ukraine

I. A. Pavlyuchenkov
Dneprodzerzhinsk State Technical University, Dneprodzerzhinsk, Ukraine

N. V. Andrianov
Republican Unitary Enterprise "Belarusian Metallurgical Plant", Zhlobin, Belarus

ABSTRACT

Based on the previously obtained [1, 2] approximate solutions of all classes of nonlinear problems of thermomechanics (heat conduction and thermoelasticity), Postolnik and Ogurtsov [3, 4] presented respective techniques for computation of temperatures and stresses, given nonlinearities of the 1st (temperature dependence of thermophysical characteristics of the material), 2nd (radiative heat transfer), and 3rd (melting-solidification phase transformations) kinds. For the purpose of increasing the technological effectiveness of the computation process, most of these techniques are supported by computerized programs. Here, we present an example of a block diagram for computation of the temperature and thermally stressed state of massive bodies of the basic shape (BBS) under the conditions of radiative heating.

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