A STUDY OF HEAT CONDUCTION IN STRUCTURAL CERAMIC MATERIALS. PART III. MATHEMATICAL MODEL OF MEASURING CELL

Abraitis R.I.; Dargis A.K.

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A STUDY OF HEAT CONDUCTION IN STRUCTURAL CERAMIC MATERIALS. PART III. MATHEMATICAL MODEL OF MEASURING CELL

机译：结构陶瓷材料的导热研究。第三部分测量细胞的数学模型

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The process of heat propagation in a specimen is considered in an approximation of a one-dimensional heat flow with side leakages of heat. They are modelled as a function of the heat sources (sinks). The chosen stationary heating and the temperature field in the specimen are described by a nonlinear one-dimensional differential equation. The boundary conditions and the source function are determined from experimental data. The nonlinear one-dimensional differential equation is used in an implicit identification method and solved numerically a minimum of the quality criterion is determined at each iteration step in the search procedure. The identification procedure is performed by explicit and implicit methods of solution of inverse problems of heat conduction. A numerical simulation has shown that the method of component-wise minimization is the most efficient.

机译：考虑到一维热流与侧面热泄漏的近似关系，可以考虑样品中的热传播过程。根据热源（散热器）对它们进行建模。用非线性一维微分方程描述样本中选定的固定加热和温度场。边界条件和源函数由实验数据确定。非线性一维微分方程在隐式识别方法中使用，并在搜索过程中的每个迭代步骤中通过数值方式求解出质量标准的最小值。识别程序通过热传导逆问题的显式和隐式方法执行。数值模拟表明，逐分量最小化方法是最有效的。

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《Refractories and Industrial Ceramics》 |2000年第4期|共4页
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Abraitis R.I.; Dargis A.K.;
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A STUDY OF HEAT CONDUCTION IN STRUCTURAL CERAMIC MATERIALS. PART III. MATHEMATICAL MODEL OF MEASURING CELL

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