Modelling of load transfer between porous matrix and short fibres in ceramic matrix composites

机译：陶瓷基复合材料多孔基质与短纤维之间的负载转移建模

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The aim of this work is to present a model of load transfer between porous matrix and short fibres in ceramic matrix composites. This analysis is based on the earlier shear-lag models used for polymeric composites. However, geometry and strength of fibres in addition to the matrix porosity are included in the present analysis. The theoretical curves for the longitudinal and shear stresses distributions along the fibre-porous matrix interface are presented. They exhibited a maximum strength point at the middle of the short fibres. It became evident that the critical length is governed by the relative properties of the fibres, matrix and porosity, which greatly influenced the load carrying capacity of the fibres in the composites. In addition, the present simplified solution facilitates the understanding of the interface mechanism using porous matrix.

机译：该工作的目的是呈现多孔基质和陶瓷基质复合材料中的多孔基质和短纤维之间的负载转移模型。该分析基于用于聚合物复合材料的早期剪切延迟模型。然而，除了基质孔隙率之外，纤维的几何和强度包括在本分析中。呈现了纵向和剪切应力沿着纤维多孔基质界面的分布的理论曲线。它们在短纤维中间表现出最大强度点。显而易见的是，临界长度受到纤维，基质和孔隙率的相对特性的控制，这极大地影响了复合材料中纤维的承载能力。此外，本简化的解决方案有助于使用多孔基质对界面机制的理解。

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《International conference on Computational Methods and Experiments in Materials Characterisation》|2011年||共10页
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J. G. P. Silva; D. Hotza; R. Janssen; H. A. Al-Qureshi;
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中图分类工程材料一般性问题;
关键词
modelling; ceramic matrix composites; shear-lag models; porous ceramics;

机译：造型;陶瓷矩阵复合材料;剪切型号;多孔陶瓷;

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机译：考虑纤维断裂的纤维增强陶瓷基复合材料的矩阵多裂纹演化模型
2. MODELLING MATRIX MULTI-CRACKING EVOLUTION OF FIBRE-REINFORCED CERAMIC-MATRIX COMPOSITES CONSIDERING FIBRE FRACTURE [J] . Li Longbiao ceramics . 2019,第1期

机译：考虑纤维骨折的纤维增强陶瓷 - 基质复合材料的模拟矩阵多开裂演化
3. Analysis of the stress transfer at the fibre-matrix interface in the case of ceramic matrix composites using instrumented microindentation tests: the Hi-Nicalon/BN/alpha-Si3N4 composite. [French] [J] . Drissi-Habti M. Annales de Chimie-Science des Materiaux . 1998,第7a8期

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4. Modelling of load transfer between porous matrix and short fibres in ceramic matrix composites [C] . J. G. P. Silva, D. Hotza, R. Janssen, International conference on Computational Methods and Experiments in Materials Characterisation . 2011

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5. Processing of a fiber-reinforced transparent glass matrix composite and study of micromechanics of load transfer from matrix to fiber using micro-fluorescence spectroscopy. [D] . Banerjee, Debangshu. 2000

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7. Modelling of load transfer between porous matrix and short fibres in ceramic matrix composites [O] . J. G. P. Silva, D. Hotza, R. Janssen, 2011

机译：陶瓷基复合材料多孔基质与短纤维之间的负载转移建模
8. A review of failure models for unidirectional ceramic matrix composites under monotonic loads [R] . Tripp, David E., Hemann, John H., Gyekenyesi, John P. 1989

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Modelling of load transfer between porous matrix and short fibres in ceramic matrix composites

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