Micro-XCT-based finite element method for predicting the elastic modulus of needle carbon-fiber-reinforced ceramic matrix composites

Xiguang Gao; Piaoyang Luo; Guangwu Fang; Sheng Zhang; Yingdong Song

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Micro-XCT-based finite element method for predicting the elastic modulus of needle carbon-fiber-reinforced ceramic matrix composites

机译：基于微XCT的针刺碳纤维增强陶瓷基复合材料弹性模量的有限元方法

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In this study, a finite element method was developed based on X-ray computer tomography to predict the elastic modulus of needle carbon-fiber-reinforced ceramic matrix composites with voids randomly existing in the material. In these pictures, every pixel point contains all of the information of the components that we need, including voids. Using this information, the mechanical properties of components can be obtained, then a finite element model with voids was built and the predicted results fit well with the experiments. In addition, a volume average method was developed to determine the proper representative volume element size to reduce the computing time without losing the accuracy.

机译：在这项研究中，基于X射线计算机断层扫描技术开发了一种有限元方法，以预测在材料中随机存在空隙的针状碳纤维增强陶瓷基复合材料的弹性模量。在这些图片中，每个像素点都包含我们需要的组件的所有信息，包括空隙。利用这些信息，可以获得部件的机械性能，然后建立具有空隙的有限元模型，并且预测结果与实验非常吻合。此外，开发了一种体积平均方法来确定适当的代表性体积元素大小，以减少计算时间而又不损失准确性。

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《Science and Engineering of Composite Materials》 |2017年第1期|共11页
作者
Xiguang Gao; Piaoyang Luo; Guangwu Fang; Sheng Zhang; Yingdong Song;
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中图分类工程材料学;
关键词
elastic modulusfinite element methodmicro-XCTneedle ceramic matrix composites;

机译：弹性模量有限元法微型XCT针式陶瓷基复合材料;

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1. Micro-XCT-based finite element method for prediction of elastic modulus of plane woven carbon fiber-reinforced ceramic matrix composites [J] . Gao Xiguang, Luo Piaoyang, Yu Guoqiang, Journal of Composite Materials . 2015,第27期

机译：基于微观XCT的有限元法预测碳纤维增强陶瓷基复合材料的弹性模量
2. ICCM2015: Study on Elastic Matrix Model of the Bi-modulus Finite Element Numerical Method [J] . Zhao Hui-Ling, Ye Zhi-Ming International journal of computational methods . 2016,第4期

机译：ICCM2015：双模有限元数值方法的弹性矩阵模型研究
3. Effect of Matrix Modulus, CNT Thickness, and Interphase Volume Fraction on Mechanical Properties of CNT-based Polymer Composite by Finite Element Method [J] . Shah Limon, Sanjit Kumer Basak, A. K. M. Masud International Journal of Engineering Trends and Technology . 2017,第3期

机译：有限元法研究基体模量，CNT厚度和相间体积分数对CNT基聚合物复合材料力学性能的影响
4. ELASTIC MODULUS MEASUREMENTS BY THREE METHODS ON A 2-D LAMINATED CONTINUOUS FIBER-REINFORCED CERAMIC MATRIX COMPOSITE [C] . S. T. Gonczy, M. G. Jenkins Intemational Symposium on Advances in Ceramic-Matrix Composites Held at the 101st Annual Meeting of the American Ceramic Society, Apr 25-28, 1999, Indianapolis, Indiana . 1999

机译：二维层状连续纤维增强陶瓷基复合材料的三种模量弹性模量测量
5. Finite element analysis of damage and elastic-plastic behavior of metal matrix composites. [D] . Park, Taehyo. 1994

机译：金属基复合材料损伤和弹塑性行为的有限元分析。
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

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7. Feasibility of a weakly intrusive Generalized Finite Element Method implementation in a commercial code: Application to Ceramic Matrix Composite micro-structures [O] . Thomas-David Jayet, Emmanuel Baranger, Guillaume Couegnat, 2021

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8. Through Thickness Modulus (E33) of Ceramic Matrix Composites: Mechanical Test Method Confirmation (Preprint) [R] . Ojard, G., Barnett, T., Calomino, A., 2008

机译：通过陶瓷基复合材料的厚度模量（E33）：机械测试方法确认（预印）

Micro-XCT-based finite element method for predicting the elastic modulus of needle carbon-fiber-reinforced ceramic matrix composites

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