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3D Simulation of Dynamic Interlaminar Failure in Curved Unidirectional CFRP
Date
2020-09-01
Author
Çevik, Ahmet
Çöker, Demirkan
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https://hdl.handle.net/11511/77302
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In this study, dynamic fracture of curved carbon fiber reinforced plastic (CFRP) laminates under quasi-static loading is investigated using explicit three dimensional (3D) finite element method in conjunction with Cohesive Zone Modelling (CZM). The simulations are based on the experimental studies conducted by Tasdemir (2018). Three dimensional finite element models of two different ply architectures (unidirectional and fabric laminate) are generated corresponding to the experimental configurations. The com...
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In the course of thermal treatments, materials are usually subjected to continuous heating and cooling cycles during which microstructural evolution and mechanical interactions occur simultaneously at different length and time scales. Modeling of these processes necessitates dealing with inherent complexities such as large material property variations, complex couplings and boundary conditions, coupled heat and mass transfer mechanisms and phase transformations. In this study, a mathematical framework based...
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A. Çevik and D. Çöker, “3D Simulation of Dynamic Interlaminar Failure in Curved Unidirectional CFRP,” 2020, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/77302.