成核
材料科学
瑞利散射
剪切(地质)
女儿
不稳定性
断裂力学
机械
结构工程
复合材料
工程类
物理
光学
热力学
进化生物学
生物
作者
Jun Zeng,Jiale Ji,Shuyu Chen,Fucheng Tian
标识
DOI:10.1016/j.ijengsci.2023.103862
摘要
The Sub-Rayleigh to supershear transition is commonly accepted to be governed by the Burridge-Andrews mechanism. Such a mechanism predicts the direct nucleation of a secondary intersonic crack (daughter crack), which is triggered ahead of the main crack front due to a developing shear stress peak. Yet, some research shows that the supershear transition is not always accompanied by a daughter crack. And to our knowledge, mother-daughter crack pairs are rarely reported with visual observations. By conducting numerical experiments for pre-strained PMMA plates, the mother-daughter crack mechanism is successfully observed in phase-field fracture modeling for the first time. On this basis, both the supershear transition with and without the daughter crack are discussed in terms of the stress field and prestress level. Our results reveal a critical prestress level, below which no supershear transition can be accomplished from the Sub-Rayleigh crack propagation. Furthermore, we also presented the criteria for predicting the occurrence of daughter crack through systematic simulations.
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