Effect of Stacking Sequence on Low-Velocity Impact Behavior of Metal Laminates

被引:0
作者
H. Khoramishad
M. Bagheri Tofighi
M. Khodaei
机构
[1] Iran University of Science and Technology,School of Mechanical Engineering
来源
Physical Mesomechanics | 2018年 / 21卷
关键词
adhesively bonded metal laminate; low-velocity impact; stacking sequence; finite element modeling; drop weight test method;
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学科分类号
摘要
In this paper, the low-velocity impact behavior of metal laminates was studied experimentally and numerically. Metal laminates with different number of metal layers and different stacking sequences were investigated by examining the contact force, the contact duration, the dissipated energy and the transverse displacement as the main low-velocity impact responses. It was found that from stacking sequence perspective, the low-velocity impact responses of metal laminates were mainly affected by the volume fraction of metal layers, the material characteristics of the first and last metal layers and the number of metal layers. Increasing the number of metal layers in a constant thickness of metal laminates decreased the contact force and increased the contact duration and transverse displacement. The use of higher volume fraction of a metal material in a metal laminate caused the metal laminate to inherit more of the impact characteristics of that material. The results of this research can assist engineers to design metallic structures with desired low-velocity impact behaviors.
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页码:140 / 149
页数:9
相关论文
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