Cohesive modeling of low-velocity impact damage in layered functionally graded beams

Kubair DV; Lakshmana BK

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Cohesive modeling of low-velocity impact damage in layered functionally graded beams

机译：分层功能梯度梁中低速冲击损伤的内聚模型

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Numerical analysis of the low-velocity impact damage of a layered composite beam with a functionally graded core is performed using the multiple-isoparametric cohesive volume finite element (MCVFE) scheme. A mixed-mode intrinsic cohesive zone model is used to simulate the spontaneous damage initiation and growth in this work. The inhomogeneous Young's modulus variation is assumed to be symmetric about the neutral plane. Our parametric simulations showed that the energetics of damage is altered by the presence of a functionally graded core. The effect of including a functionally graded core is to advance the time of fracture initiation compared to a cross-ply (90 degrees) core. The assumed symmetry and linear inhomogencity leads to the energetics for the graded core to be similar to those observed for a 45 degrees core ply-orientation. (c) 2007 Elsevier Ltd. All rights reserved.

机译：使用多等参内聚体积有限元（MCVFE）方案对具有功能梯度芯的层状复合梁的低速冲击损伤进行了数值分析。在此工作中，使用混合模式固有粘聚区模型来模拟自发损伤的发起和增长。假设不均匀的杨氏模量变化关于中性面对称。我们的参数模拟表明，损坏的能量因功能梯度铁芯的存在而改变。与交叉层（90度）岩心相比，包含功能梯度岩心的作用是延长断裂开始时间。假定的对称性和线性不均匀性导致渐变的堆芯的能量学与在45度堆芯层定向中观察到的能量学相似。（c）2007 Elsevier Ltd.保留所有权利。

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《Mechanics research communications》 |2008年第2期|共11页
作者
Kubair DV; Lakshmana BK;
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正文语种 eng
中图分类力学;
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functionally graded materials; cohesive zone model; multiscale modeling; multiple-isoparametric cohesive volume finite element (MCVFE) method; low-velocity impact damage; SPONTANEOUS CRACK-PROPAGATION; DYNAMIC FRACTURE; SIMULATION; GROWTH; PARAMETERS; SOLIDS; EPOXY; ZONE;

机译：功能梯度材料;内聚区模型;多尺度建模;多等参内聚体有限元（MCVFE）方法;低速冲击损伤;自发裂纹扩展;动态断裂;模拟;生长;参数;固体;环氧树脂;区域;

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专利

1. Cohesive modeling of low-velocity impact damage in layered functionally graded beams [J] . Kubair DV, Lakshmana BK Mechanics research communications . 2008,第1a2期

机译：分层功能梯度梁中低速冲击损伤的内聚模型
2. An extended cohesive damage model study of geometrical ratio effects on failure mechanisms of functionally graded sandwiches with multi-layered cores [J] . Ghimire S., Chen J. Composite Structures . 2019,第SEPa期

机译：几何比对多层芯功能梯度三明治破坏机理的扩展内聚损伤模型研究
3. An extended cohesive damage model study of geometrical ratio effects on failure mechanisms of functionally graded sandwiches with multi-layered cores [J] . Ghimire S., Chen J. Composite Structures . 2019,第Sepa期

机译：多层核心功能梯生三明治失效机制的延长凝聚力模型研究
4. Numerical Analysis on Low-Velocity Impact Damage of Laminated Composites by Combining Continuum Damage Mechanics with Cohesive Zone Model [C] . X. Sun, P. Qu, Y. Guo, International Conference on Composite Materials . 2013

机译：粘性区模型结合连续损伤力学叠层复合材料低速冲击损伤的数值分析
5. Three-dimensional cohesive modeling of impact damage of composites. [D] . Yu, Chengxiang. 2001

机译：复合材料冲击损伤的三维内聚建模。
6. Effect of Temperature and Water Absorption on Low-Velocity Impact Damage of Composites with Multi-Layer Structured Flax Fiber [O] . Yiou Shen, Junjie Zhong, Shenming Cai, 2019

机译：温度和吸水率对多层结构亚麻纤维复合材料低速冲击损伤的影响
7. An extended cohesive damage model study of geometrical ratio effects on failure mechanisms of functionally graded sandwiches with multi-layered cores [O] . S. Ghimire, J. Chen 2019

机译：多层核心功能梯生三明治失效机制的延长凝聚力模型研究
8. Characterization and Model Assessment for Impact Damage Evolution in Functionally Graded Composites Using a Novel Nanosecond Deformation Measurement System [R] . McNeill, S. R. , Sutton, M. A. , Bruck, H. A. 2006

机译：用新型纳秒变形测量系统对功能梯度复合材料冲击损伤演化的表征和影响评估

Cohesive modeling of low-velocity impact damage in layered functionally graded beams

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