A nonlinear repeated impact model of auxetic honeycomb structures considering geometric nonlinearity and tensile/compressive deformation

IF 2.6 4区 工程技术 Q2 MECHANICS
Yunfei Liu, Zhao-ye Qin, F. Chu
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引用次数: 2

Abstract

This study aims to improve the impact protection performance of composite structures by combining a honeycomb core with negative Poisson's ratio and graphene platelets reinforced (GPR) face sheets. The paper investigates the nonlinear repeated low-velocity impact responses of auxetic honeycomb composite plates, taking into account loading-unloading-reloading processes. Effective material properties of the auxetic honeycomb core and GPR face sheets are obtained by using the proposed modified Gibson function and Halpin-Tsai model. Then, taking into account geometric nonlinearity, the nonlinear equations of motion for the system were derived by the Hamilton's principle. Afterward, the time-varying contact force between the composite plate and a spherical impactor is defined by the modified nonlinear Hertz contact theory. The Galerkin method and variable-step Runge-Kutta algorithm are selected to obtain nonlinear impact responses. The proposed methods are verified by finite element simulation and experiment. Finally, the study evaluates the effects of key parameters on the nonlinear repeated low-velocity impact responses.
考虑几何非线性和拉伸/压缩变形的蜂窝结构非线性重复冲击模型
本研究旨在通过将具有负泊松比的蜂窝芯与石墨烯片增强(GPR)面板相结合,提高复合材料结构的冲击防护性能。本文研究了考虑加载-卸载-再加载过程的饱胀蜂窝复合材料板的非线性重复低速冲击响应。利用改进的Gibson函数和Halpin Tsai模型,获得了膨胀蜂窝芯和GPR面板的有效材料性能。然后,考虑到几何非线性,利用汉密尔顿原理导出了系统的非线性运动方程。然后,利用修正的非线性赫兹接触理论定义了复合材料板与球形冲击器之间的时变接触力。采用伽辽金法和变步长龙格-库塔算法求解非线性冲击响应。通过有限元仿真和实验验证了所提出的方法。最后,评估了关键参数对非线性重复低速冲击响应的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.80
自引率
3.80%
发文量
95
审稿时长
5.8 months
期刊介绍: All areas of theoretical and applied mechanics including, but not limited to: Aerodynamics; Aeroelasticity; Biomechanics; Boundary layers; Composite materials; Computational mechanics; Constitutive modeling of materials; Dynamics; Elasticity; Experimental mechanics; Flow and fracture; Heat transport in fluid flows; Hydraulics; Impact; Internal flow; Mechanical properties of materials; Mechanics of shocks; Micromechanics; Nanomechanics; Plasticity; Stress analysis; Structures; Thermodynamics of materials and in flowing fluids; Thermo-mechanics; Turbulence; Vibration; Wave propagation
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