Numerical analysis of a ceramic matrix composites with strain induced damage using finite element method

机译：用有限元法测定应变诱导损伤的陶瓷基复合材料的数值分析

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A computationally efficient FE model has been developed to predict the mechanical behavior of ceramic matrix composites with strain-induced damage. The effects of different damage modes and their interactions on mechanical behavior have been considered. The non-linear longitudinal material properties are discretised to a multi-linear elastic curve. The constitutive equations for orthotropic materials are used to update the stresses for each increment of the analysis. The model is implemented by a Finite Element package, ANSYS with a user defined subroutine, UMAT. In all analyses, the expected mechanical behavior has been obtained. Strain induced damage modes and their interactions are modeled using the finite element method for Ceramic Matrix Composites (CMC) tows and 0°/90° laminates. For both situations, bi-axial straining is addressed, together with the degradation of Young's modules and Poisson's ratios. In all cases, the expected stress-strain behavior is calculated.

机译：已经开发了一种计算上有效的Fe模型以预测陶瓷基复合材料具有应变诱导的损伤的力学行为。考虑了不同损伤模式的影响及其对机械行为的相互作用。非线性纵向材料特性被离散到多线性弹性曲线。用于正交材料的组成方程用于更新每个分析的增量的应力。该模型由有限元包，具有用户定义的子例程的ANSYS实现，UMAT。在所有分析中，已经获得了预期的机械行为。应变诱导的损伤模式和它们的相互作用使用用于陶瓷矩阵复合材料（CMC）TOOS和0＆＃X00B0; / 90＆＃X00B0的有限元方法进行建模。层压板。对于这种情况，双轴紧张被解决，以及杨氏模块和泊松比的降解。在所有情况下，计算预期的应力应变行为。

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《International Conference on Advanced Nanomaterials and Emerging Engineering Technologies》|2013年||共7页
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Pandu Ratnakar; Ramakrishnudu. I; Babu Vimal;
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中图分类特种结构材料;
关键词
Ceramic Matrix Composites; Damage Mechanisms; Finite Element Method; Orthotropic Material; Tows;

机译：陶瓷矩阵复合材料;损伤机制;有限元法;正交材料;丝束;

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1. Finite element analysis of macro-microscopic mechanical behavior of cross-ply fiber-reinforced ceramic matrix composites with matrix anisotropic damage [J] . Luo D, Takezono S, Tao K, Advanced Composite Materials: The Official Journal of the Japan Society of Composite Materials . 2004,第4期

机译：具有基质各向异性损伤的交叉纤维增强陶瓷基复合材料宏观微观力学行为的有限元分析
2. Mesh-objective two-scale finite element analysis of damage and failure in ceramic matrix composites [J] . Pascal Meyer, Anthony M Waas Integrating Materials and Manufacturing Innovation . 2015,第1期

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3. Multi-scale damage modelling in a ceramic matrix composite using a finite-element microstructure meshfree methodology [J] . Saucedo-Mora L., Marrow T. J. Philosophical transactions of the Royal Society. Mathematical, physical, and engineering sciences . 2016,第2071期

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4. Numerical analysis of a ceramic matrix composites with strain induced damage using finite element method [C] . Pandu Ratnakar, Ramakrishnudu. I, Babu Vimal 2013 International Conference on Advanced Nanomaterials and Emerging Engineering Technologies . 2013

机译：应变诱导损伤的陶瓷基复合材料的有限元数值分析
5. Three-dimensional strain analysis of single-lap bolted joints in thick composites using fiber-optic strain gages and finite element method. [D] . Isaicu, Gabriel A. 2006

机译：光纤应变计和有限元方法对厚复合材料中单搭接螺栓连接的三维应变分析。
6. Multi-scale damage modelling in a ceramic matrix composite using a finite-element microstructure meshfree methodology [O] . L. Saucedo-Mora, T. J. Marrow -1

机译：使用有限元微结构无网格方法对陶瓷基复合材料进行多尺度损伤建模
7. Mesh-objective two-scale finite element analysis of damage and failure in ceramic matrix composites [O] . Pascal Meyer, Anthony M Waas 2015

机译：陶瓷基复合材料损伤与破坏的网格目标两尺度有限元分析

Numerical analysis of a ceramic matrix composites with strain induced damage using finite element method

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