Journal
ENGINEERING FRACTURE MECHANICS
Volume 264, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.engfracmech.2022.108276
Keywords
Viscoelasticity; Adhesion; Crack propagation; Finite size effect
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Funding
- Italian Ministry of Education, University and Research (MIUR) under the program Departments of Excellence'' [L.232/2016]
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This article discusses the applicability of energy balance for large cracks and introduces the influence of liquid materials and viscoelasticity on flaw sensitivity. A comparison is made between different theories using a simple Dugdale model, revealing significant differences.
It is known that energy balance is the correct criterion for large enough cracks, as otherwise the limit (cohesive) strength dominates, and this is the reason for many examples in Nature of flaw insensitivedesign at very small scales. These concepts have so far been proposed only for elastic materials, neglecting the effect of viscoelasticity. This introduces some novelty: for liquid materials, there is never flaw insensitivity as slow crack propagation occurs in principle at any crack size. On the other hand, for materials with a well defined relaxed modulus, flaw sensitivity can be defined with respect to threshold or very fast speed of propagation, respectively. These concepts are introduced by means of a simple Dugdale model, in which Schapery's approximation is used. Qualitative comparison with existing theories based on the de Gennes/Persson-Brener model with dissipated energy is made, and large differences are found.
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