Modelling of fibre-matrix interface of brittle matrix long fibre composite by application of cohesive zone method

机译：应用内聚区法对脆性长纤维复合材料的纤维-基体界面进行建模

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Ceramic matrix composites reinforced by unidirectional long ceramic fibre are very perspective materials. The only disadvantage of such materials is relatively high brittleness at room temperature. The main micromechanism acting as toughening mechanism is the pull out. There are other mechanisms as crack bridging, crack deflection etc. but the primer mechanism is mentioned pull out which is governed by interface between fibre and matrix. The contribution shows a way how to predict and/or optimise behaviour of composite by application of cohesive zone method using the FEM numerical package Abaqus. The presented results from numerical calculations are compared with experimental data.

机译：单向长陶瓷纤维增强的陶瓷基复合材料是非常有前景的材料。这种材料的唯一缺点是在室温下具有较高的脆性。充当增韧机制的主要微观机制是拉拔。还有其他机制，如裂缝桥接，裂缝挠度等，但提到的底漆机制是由纤维和基体之间的界面控制的。该贡献显示了一种方法，该方法如何通过使用有限元数值软件包Abaqus的内聚区方法来预测和/或优化复合材料的行为。将数值计算的结果与实验数据进行比较。

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来源
《Materials structure amp; micromechanics of fracture》|2010年|p.231-234|共4页
会议地点 Brno(CZ);Brno(CZ)
作者
Vladislav Kozak; Zdenek Chlup;
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作者单位

institute of Physics of Materials AS CR, Zizkova 22, 616 62 Brno, Czech Republic;

institute of Physics of Materials AS CR, Zizkova 22, 616 62 Brno, Czech Republic;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
cohesive zone model; fibre composite; finite element user procedure;

机译：内聚区模型纤维复合材料有限元用户程序；;

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专利

1. A linear elastic-brittle interface model: application for the onset and propagation of a fibre-matrix interface crack under biaxial transverse loads [J] . Mantic Vladislav, Tavara Luis, Blazquez Antonio, International Journal of Fracture . 2015,第1a2期

机译：线性弹性-脆性界面模型：在双轴横向载荷下纤维-基体界面裂纹的发生和扩展中的应用
2. A shear-lag model with a cohesive fibre-matrix interface for analysis of fibre pull-out [J] . Chen Zuorong, Yan Wenyi Mechanics of materials . 2015,第DECaPTa1期

机译：具有内聚纤维-基体界面的剪切滞后模型，用于分析纤维拉出
3. An 2-D SGBEM formulation of contact models coupling the interface damage and Coulomb friction in fibre-matrix composites [J] . Ksinan J., Vodicka R. Engineering Fracture Mechanics . 2016,第Null期

机译：接触模型的二维SGBEM公式耦合了纤维基质复合材料中的界面损伤和库仑摩擦
4. Modelling of fibre-matrix interface of brittle matrix long fibre composite by application of cohesive zone method [C] . Vladislav Kozak, Zdenek Chlup International Conference on Materials Structure and Micromechanics of Francture . 2011

机译：粘性区法应用脆基质长纤维复合纤维 - 基质界面的建模
5. Distributed cohesive zone methods for modeling fracture in brittle coating systems & composites [D] . Pro, John William. 2016

机译：脆性涂层系统和复合材料中骨折建模的分布式内聚区方法
6. Morphology Based Cohesive Zone Modeling of the Cement-Bone Interface from Postmortem Retrievals [O] . Daan Waanders, Dennis Janssen, Kenneth A. Mann, -1

机译：淘汰淘汰检索的水泥骨界面的形态学衔接区建模
7. A linear elastic-brittle interface model: application for the onset and propagation of a fibre-matrix interface crack under biaxial transverse loads [O] . Mantic Lescisin, Vladislav, Távara Mendoza, Luis Arístides, Blázquez Gámez, Antonio Manuel, 2015

机译：线性弹性-脆性界面模型：在双轴横向载荷下纤维-基体界面裂纹的发生和扩展中的应用
8. Physics-based Modeling of Brittle Fracture: Cohesive Formulations and the Application of Meshfree Methods [R] . Klein, P. A., Foulk, J. W., Chen, E. P., 2000

机译：基于物理的脆性断裂建模：粘性配方及无网格方法的应用

Modelling of fibre-matrix interface of brittle matrix long fibre composite by application of cohesive zone method

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