Finite Elements in Fracture Mechanics
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The article was published on 2013-01-01 and is currently open access. It has received 146 citations till now. The article focuses on the topics: Peridynamics & Solid mechanics.read more
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A review of Finite Fracture Mechanics: crack initiation at singular and non-singular stress raisers
TL;DR: In this article, a coupled criterion was proposed for finite fracture mechanics, which is applied to different materials and structures: notched specimens, laminates, adhesive joints or embedded inclusions, and it is shown that this criterion gives predictions in agreement with experiments in various cases of stress concentration.
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Computational fracture mechanics: An overview from early efforts to recent achievements
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Tilting separation analysis of bottom-up mask projection stereolithography based on cohesive zone model
TL;DR: In this paper, an analytical model based on cohesive zone model was formed and a specialized experimental system was built to analyze the tilting effects on cohesive stiffness and fracture energy, which can be used to choose the reasonable platform motion and process parameters by considering the part geometry and the characteristics of both inert film and materials.
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Fretting fatigue crack propagation lifetime prediction in cylindrical contact using an extended MTS criterion for non-proportional loading
TL;DR: In this article, an extension of the maximum tangential stress (MTS) orientation criterion taking into account the effects of non-proportional loading and crack face interactions is considered with the goal of improving the predictions of crack path and propagation lives for a cylindrical pad configuration.
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Stress intensity factor calculation through thermoelastic stress analysis, finite element and RPIM meshless method
Behzad V. Farahani,Behzad V. Farahani,Paulo J. Tavares,Pedro M.G.P. Moreira,Jorge Belinha,Jorge Belinha +5 more
TL;DR: In this article, the stress intensity factor (SIF) for a compact tension specimen (CT) during a fatigue crack growth test with Thermoelastic Stress Analysis (TSA) was determined using advanced discretization techniques, Radial Point Interpolation Meshless method (RPIM) and Finite Element Method (FEM).