Limitations on the use of the mixed-mode delaminating beam test specimen: Effects of the size of the region of K-dominance
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2021, Engineering Fracture MechanicsTrans-scale characterization of interface fracture in peel test for metal film/ceramic substrate systems
2019, Engineering Fracture MechanicsCitation Excerpt :For example, the interfacial separation strength very near to the crack tip of the metal/ceramic interface observed by the experiment can reach several times or even ten times the yield strength of the material at macroscopic scale, but the corresponding value predicted by the conventional elastoplastic theory can only reach three or four times at most [13–15]. As the film thickness decreases, the size of the singular stress dominant zone is also reduced accordingly [16]. For the case of micro/nano-scale film thickness, stress singular regions are generally only tens to hundreds of nanometers in size.
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2018, International Journal of Solids and StructuresFracture criterion of mixed-mode crack propagation along the interface in nanoscale components
2018, Engineering Fracture MechanicsCitation Excerpt :Thus, to assure the reliability of these devices, it is critically important to precisely evaluate the fracture criterion of interface in nanoscale components. Because the stress concentration field proportionally shrinks with the decrease of component size, the concentrated stress field at the interface in advanced electronic devices is usually confined to the nanoscale [6,7]. In such scale, the applicability of conventional fracture mechanics for interface fracture at nanoscale has attracted great attention [8–11], and the linear fracture mechanics theory is found to be still applicable for the fracture of single crystalline silicon with the singular stress field of about 3–4 nm by atomic simulations cooperating with in situ experiments [10,11].