用MMC中的映射变换函数(MTF)精确测定短纤维复合材料的稳态蠕变行为

American Journal of Materials Science Pub Date : 2012-08-31 DOI:10.5923/J.MATERIALS.20120202.07

V. Monfared

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引用次数: 0

摘要

提出了基于映射函数的6061Al/15%SiC (MMC’s)短纤维金属基复合材料轴向载荷稳态蠕变精确测定数学模型。6061Al/15%SiC (MMC’s)复合材料的有限元分析和稳态蠕变行为与前人的实验结果不一致。为了将以往的分析和有限元结果正确地转换为实验结果，本文引入了转换函数。映射函数法(Mapping function method, MFM)是将分析和有限元结果转化为实验结果的有效方法。此外，纤维的行为是弹性的，不像基体的蠕变行为。此外，还解析地介绍了映射变换函数。最后，用映射函数法(MFM)预测短纤维复合材料的稳态蠕变行为，结果与以往的实验结果吻合较好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Determination of Exact Steady State Creep Behavior in Short Fiber Composites by Mapping Transformation Function (MTF) in MMC's

A novel mathematical model based on mapping function is presented for determination of exact steady state creep behaviour in short fiber metal matrix composites 6061Al/15%SiC (MMC's) subjected to axial loading. FEM and analytical steady state Creep behaviour of 6061Al/15%SiC (MMC's) composites wasn't coinciding to the previous experi- mental results in Prior researches. In this paper, transformation function is introduced in order to convert previous analytical and FEM results to experimental results correctly. Mapping function method (MFM) is exact approach for transformation of analytical and FEM results to experimental results in MMC's. Also, fiber behaviour is elastic unlike creep behaviour of matrix. In addition mapping transformation function is introduced analytically. Eventually, good agreement is established between the results of new mapping function method (MFM) and previous experimental results for prediction of steady state creep behaviour in short fiber composites (SFC's).

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American Journal of Materials Science

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