Peridynamic analysis of fibre-matrix debond and matrix failure mechanisms in composites under transverse tensile load by an energy-based damage criterion

M. Rädel; C. Willberg; D. Krause

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Peridynamic analysis of fibre-matrix debond and matrix failure mechanisms in composites under transverse tensile load by an energy-based damage criterion

机译：基于能量损伤准则的横向拉伸载荷下复合材料纤维-基体脱粘和基体破坏机理的周向动力学分析

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Reliable simulation methods and failure criteria are required during the sizing of fibre reinforced plastics (FRPs). Peridynamics (PDs) is a promising numerical method to predict the evolution and interaction of damages. In the current text a novel energy-based failure criterion for linear peridynamic solid (LPS) materials is implemented and applied to the micromechanical damage of FRP structures. The novel criterion promises a more realistic reproduction of failure modes for ductile materials, a reduced mesh dependency and only requires physically measurable parameters. The results of the novel criterion are compared to a reference criterion and are evaluated against experimental observations.

机译：在纤维增强塑料（FRP）的上浆过程中，需要可靠的模拟方法和失效准则。围力学（PDs）是一种有前途的数值方法，可预测损伤的演变和相互作用。在本文中，一种新的基于能量的线性周向动力固体（LPS）材料失效准则得以实施，并应用于FRP结构的微机械损伤。新的标准保证了韧性材料失效模式的更真实再现，减少了网格依赖性，并且仅需要物理上可测量的参数。将新标准的结果与参考标准进行比较，并根据实验观察进行评估。

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来源
《Composites》 |2019年第1期|18-27|共10页
作者
M. Rädel; C. Willberg; D. Krause;
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作者单位

German Aerospace Center (DLR e.V.), Institute of Composite Structures and Adaptive Systems, Department of Structural Mechanics;

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原文格式 PDF
正文语种 eng
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关键词
Peridynamics; Failure criterion; FRP; RVE; Fibre-matrix debonding;

机译：围动力学;破坏准则;FRP;RVE;纤维基质剥离;

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2. Mechanical behavior of fibrous ceramic matrix composites under constant tensile load. Influence of fibre-matrix interface properties. [J] . B.Roy, M.L.Bouchetou, M.Huger Key Engineering Materials . 1997,第Parta3期

机译：恒定拉伸载荷下纤维陶瓷基复合材料的力学性能。纤维-基质界面特性的影响。
3. Crack onset and growth at the fibre-matrix interface under a remote biaxial transverse load. Application of a coupled stress and energy criterion [J] . Manti? V., García I.G. International Journal of Solids and Structures . 2012,第17期

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4. MIXED-MODE FIBRE-MATRIX DEBONDING IN TRANSVERSE CYCLIC LOADING OF UNIDIRECTIONAL COMPOSITE PLIES [C] . E. K. Gamstedt, E. Correa European Conference of Fracture . 2004

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5. Damage mechanisms of matrix cracking and interfacial debonding in random fiber composites under dynamic loadings. [D] . Yang, Wensong. 2012

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Peridynamic analysis of fibre-matrix debond and matrix failure mechanisms in composites under transverse tensile load by an energy-based damage criterion

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