Finite Element Analysis of Creep Crack Initiation in Functionally Graded Materials with Crack Parallel to the Gradient

H. Lai
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Abstract

With the advances in material synthesis technologies, functionally graded materials (FGMs) are developed to use in high temperature structurals due to the excellent high temperature mechanical properties. To facilitate wide use of FGMs in high temperature structures, finite element method (FEM) was used in this paper to investigate effects of creep resistant properties gradients on creep crack initiation (CCI) in FGMs, with crack parallel to the gradient. Results indicated that when creep resistant properties increased in the crack growth direction, CCI was retarded by creep properties gradients. However, CCI was accelerated by creep properties gradients when creep resistant properties decreased in the crack growth direction. CCI position occurred in the two symmetric slanted planes of the initial crack, regardless of the gradient variation of creep resistant properties.
裂纹平行于梯度的功能梯度材料蠕变裂纹萌生的有限元分析
随着材料合成技术的进步,功能梯度材料因其优异的高温力学性能而被开发用于高温结构。为了促进fgm材料在高温结构中的广泛应用,本文采用有限元方法研究了fgm材料抗蠕变性能梯度对蠕变裂纹起裂(CCI)的影响,其中裂纹平行于梯度。结果表明,当抗蠕变性能沿裂纹扩展方向增加时,蠕变性能梯度减缓了CCI;当抗蠕变性能沿裂纹扩展方向降低时,蠕变性能梯度加速了CCI。CCI的位置发生在初始裂纹的两个对称斜面上,与抗蠕变性能的梯度变化无关。
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