Low-velocity impact damage on glass fibre reinforced aluminium laminates: experiments and finite element analysis

Y. Wan, Jifeng Zhang, Zhenqing Wang, Li Min Zhou
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Abstract

In order to investigate the failure mechanism of glass-fiber reinforced aluminum( GLARE) laminates under impact loading,the anti-low speed impact performance by a dropweight test on GLARE was presented,and the damage response of GLARE laminates in the test was given. The study first analyses the curves of time-contact force,time-deflection,time-absorbed energy,deflection-contact force,and the damage to two aluminum layers of the test specimen. Next,a numerical methodology in ABAQUS is employed to simulate the response in low-velocity impact of GLARE laminates and establish the finite element model. After comparing the time-contact force,timedeflection,time-absorbed energy,and the damage to aluminum layers under different circumstances of impact energy between experimental and simulation results,the reliability of the finite element model method was validated. After comparing the damages to composites and aluminum under different impact energy,no big difference in the damage to the composite layer was found. However,more damage in the aluminum layer when the impact energy is higher was found,proving that the aluminum layers play an important role in the entire anti-impact performance of materials.
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玻璃纤维增强铝层压板低速冲击损伤:实验与有限元分析
为了研究玻璃纤维增强铝(GLARE)层合板在冲击载荷作用下的破坏机理,采用落重试验对其抗低速冲击性能进行了研究,并给出了该层合板在冲击载荷作用下的损伤响应。研究首先分析了试样的时间-接触力、时间-挠度、时间吸收能、挠度-接触力及两层铝层损伤曲线。其次,利用ABAQUS软件中的数值方法,模拟了眩光层压板在低速冲击下的响应,建立了有限元模型。通过对比实验结果和仿真结果的时间接触力、时间挠度、时间吸收能量以及不同冲击能量情况下铝层损伤情况,验证了有限元模型方法的可靠性。对比不同冲击能量对复合材料和铝的损伤,发现复合材料层的损伤差异不大。然而,当冲击能量越高时,铝层的损伤越大,这证明了铝层在材料的整个抗冲击性能中起着重要的作用。
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来源期刊
哈尔滨工程大学学报
哈尔滨工程大学学报 Energy-Nuclear Energy and Engineering
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6802
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