Effect Of Assembly Uncertainties On Shock Propagation Through A Bolted Joint Under Impact Loading

Hao Chen, Zhiming Hao
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Abstract

Bolted joints have been widely used in engineering structures because of their advantages of simplicity, economy, and assembly. However, material nonlinearities, interface nonlinearities and uncertainties in the assembly process will lead to the dynamic response to become very complex. This work investigated the effect of assembly uncertainties on shock propagation through a bolted lap joint under impact loading. The object of the study was a bolted lap joint subjected to Separate Hopkinson Pressure Bar (SHPB) test. First, a high-fidelity finite element model of the bolted lap joint was developed, the model was validated by comparing with the experimental results. The error between simulation and experimental results prompted the necessary to consider the uncertainty effect. Then, the effects of multiple uncertainties were considered to identify important input random variables related to the impact response of the joint. The results showed that the slip between the connected parts has the most significant effect on energy dissipation and stress wave propagation. Finally, useful conclusions for the design of bolted joints were obtained from the computational results and discussions.
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装配不确定性对冲击载荷下螺栓连接冲击传播的影响
螺栓连接以其简单、经济、易于组装等优点在工程结构中得到了广泛的应用。然而,装配过程中的材料非线性、界面非线性和不确定性将导致动态响应变得非常复杂。本文研究了装配不确定性对冲击载荷下螺栓搭接接头冲击传播的影响。以螺栓搭接接头为研究对象,进行了单独霍普金森压杆(SHPB)试验。首先,建立了螺栓搭接高保真有限元模型,并与试验结果进行了对比验证。仿真结果与实验结果之间的误差提示有必要考虑不确定性效应。然后,考虑多个不确定因素的影响,识别与关节冲击响应相关的重要输入随机变量。结果表明:连接部件之间的滑移对能量耗散和应力波传播的影响最为显著;最后,从计算结果和讨论中得出了对螺栓连接设计有用的结论。
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CiteScore
5.20
自引率
13.60%
发文量
34
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