Effect of interface behaviour on damage and instability of PBX under combined tension–shear loading

材料科学 不稳定性 极限抗拉强度 复合材料 剪切(地质) 凝聚力(化学) 结构工程 机械 物理 工程类 有机化学 化学
作者
Quan-zhi Xia,Hongzheng Duan,Fenglei Huang
出处
期刊:Defence Technology [Elsevier BV]
卷期号:23: 137-151 被引量:10
标识
DOI:10.1016/j.dt.2022.01.010
摘要

To study the effect of interface behaviour on the mechanical properties and damage evolution of PBX under combined tension–shear loading, the present work establishes the numerical model of a PBX three-phase hybrid system, which introduces a nonlinear plastic damage cohesion model to study the mechanical response and damage process. The parameters in the model were fitted and calibrated. Taking the crack growth rate as the feature, the damage state in each stage was determined, and the damage instability criterion was given. The effects of interfacial tensile strength and shear strength on the damage process of PBX were studied. On this basis, serrated and hemispherical structures interface of PBX has been developed, which affects the damage process and instability during the loading process. The results indicate that damage state response of PBX experiences the process of stable load bearing, unstable propagation, and complete failure. At the critical moment of instability, the overall equivalent effective strain of material reaches 3024 με and instability loading displacement reaches 0.39 mm. The increase of interfacial tensile strength and shear strength significantly inhibits the damage of PBX. The effect of interfacial shear strength on critical instability of PBX is approximately 1.7 times that of the interfacial tensile strength. Further, interface opening along the normal direction is the main damage form at the interface. Serrated and hemispherical rough interfaces can significantly inhibit propagation of cracks, and the load bearing capacity is improved by 22% and 9.7%, respectively. Appropriate improvement of the roughness of the interface structure can effectively improve the mechanical properties. It is significantly important to have a better understanding of deformation, damage and failure mechanisms of PBX and to improve our predictive ability.

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