低能冲击下航空复合材料多尺度损伤模型研究

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Multiscale Modelling Pub Date : 2018-09-01 DOI:10.1142/S1756973718400036
M. Buonsanti
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引用次数: 1

摘要

本文的目的是研究航空复合材料在低能冲击下的性能。飞机复合材料板的低速撞击是现代飞机关注的问题,既可以从维修事故工具中使用,也可以在飞行中使用碎片撞击。提出的研究考虑了小块颗粒材料与大块复合材料之间的碰撞动力学。主要目的是模拟起落架抛起的跑道碎片对飞机结构的冲击。在这次模拟中,我想研究CFRP复合板在低速下受颗粒颗粒影响的理论和实验测试。有限元分析首先在宏观尺度上,然后在微观尺度上,根据实验结果显示复合材料内部的损伤,但这种经典的数值方法本身并不适合研究完整的现象。首先用经典的方法来解决这个问题,除了它们对变形场的相互影响外,在宏观和微观尺度上的关系显得很困难。为了解决最后一个问题,我将执行宏观尺度FEM分析的第一步,然后从适当创建的RVE的大小和效果中减少,这样就可以再现局部分层等微观尺度的主要效果。
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Multiscale Damage Modeling on Aeronautical Composite Under Low Energy Impact
The purpose in this paper is to investigate about the behavior of aeronautics composite material subjected to a low energy impact. Low velocity impact in aircraft composite panels is a matter of concern in modern aircraft and can be used either from maintenance accidents tools or in-flight impact with debris. The proposed study considers the dynamics of impact between a small piece of granular material and a large body of composite material. The principal aim is to simulate the impact of runway debris throw-up by the landing gear against an airplane structure. In this simulation, I want to investigate on CFRP composite panels affected by granular particles at low speed in theoretical and experimental tests. The finite element analysis, initially on the macroscale and subsequently on the microscale, shows the damage inside the composite according to the experimental results, but by itself, this classic numerical approach is little suitable to investigate the complete phenomenon. Developing the question, in first step by the classical approach, appears difficult on macro and microscale relationship besides their reciprocal influence over the deformation field. To resolve the last question, I will perform the first step on macroscale FEM analysis and then reduce from the size and effects over an opportune created RVE, such that microscale main effects as local delamination can be reproduced.
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来源期刊
Journal of Multiscale Modelling
Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
2.70
自引率
0.00%
发文量
9
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