Multi-Scale and Multi-Physics Finite Element Modeling of Oxidation Degradation in C/C Ceramic Matrix Composites

机译：C / C陶瓷基复合材料氧化降解的多尺度和多物理场有限元建模

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Fiber reinforced ceramic matrix composites (FRCMCs) have been shown to retain exceptional thermal and mechanical properties at high temperatures in inert atmosphere. However, FRCMCs like carbon fiber reinforced carbon ceramic matrix composites (C/C CMCs) degrade rapidly at temperatures as low as 450oC in oxidizing environments due to the conversion of solid carbon to gaseous oxides of carbon. With a rising demand for composite material structures to perform in extreme environmental conditions involving high temperature gradients, the prediction of oxidation damage is crucial in designing such structures. In this paper, a multi-scale finite element analysis framework is presented to study the oxidation behavior of ceramic matrix composites.

机译：纤维增强陶瓷基复合材料（FRCMC）已显示出在惰性气氛中的高温下仍具有出色的热和机械性能。但是，由于固态碳转化为碳的气态氧化物，FRCMC（如碳纤维增强碳陶瓷基复合材料（C / C CMC））在氧化环境中在低至450oC的温度下会迅速降解。随着对复合材料结构在涉及高温梯度的极端环境条件下运行的需求不断提高，氧化损伤的预测对于设计此类结构至关重要。本文提出了一种多尺度有限元分析框架来研究陶瓷基复合材料的氧化行为。

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《American Society for Composites technical conference;American Society for Composites》||1-10|共10页
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VINAY DAMODARAN; MUHAMMAD ALI IMAM; PAVANA PRABHAKAR;
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1. Multi-scale modeling of moving interface problems with flux and field jumps: Application to oxidative degradation of ceramic matrix composites [J] . Lee S., Sundararaghavan V. International Journal for Numerical Methods in Engineering . 2011,第6期

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2. 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

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
3. FINITE ELEMENT MODELING OF TRANSVERSE DEFORMATION IN REPRESENTATIVE VOLUME ELEMENTS OF CERAMIC MATRIX COMPOSITES (CMCs) [J] . C. TANG M. A. SHEIKH and D. R. HAYHURST∗ Journal of Multiscale Modelling (JMM) . 2010,第1a2期

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4. Multi-Scale and Multi-Physics Finite Element Modeling of Oxidation Degradation in C/C Ceramic Matrix Composites [C] . VINAY DAMODARAN, MUHAMMAD ALI IMAM, PAVANA PRABHAKAR American Society for Composites technical conference . 2019

机译：C / C陶瓷基复合材料中氧化降解的多尺度和多物理有限元建模
5. Artificial neural network analysis of the mechanical properties of tungsten fiber/bulk metallic glass matrix composites via neutron diffraction and finite element modeling. [D] . Denizer, Baris. 2008

机译：人工神经网络通过中子衍射和有限元建模分析钨纤维/金属玻璃基复合材料的力学性能。
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. Multi-scale modeling of moving interface problems with flux and field jumps: Application to oxidative degradation of ceramic matrix composites [O] . Sangmin Lee, Veera Sundararaghavan 2010

机译：通量和场跳跃移动界面问题的多尺度建模：陶瓷基复合材料氧化降解的应用

Multi-Scale and Multi-Physics Finite Element Modeling of Oxidation Degradation in C/C Ceramic Matrix Composites

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