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Meeting 2024 ASC Technical Conference, US-Japan Joint Symposium, D30 Meeting
Symposium 2024 ASC Technical Conference, US-Japan Joint Symposium, D30 Meeting
Presentation Title Calculating Mode Mixity in Interlaminar Fracture of Composite Laminates
Author(s) Prabhakar Rao, Carlos Davila, Ananth Virakthi, Cheryl Rose
On-Site Speaker (Planned) Prabhakar Rao
Abstract Scope To accurately predict delamination under mixed-mode loading, cohesive elements must partition the energies dissipated in Mode I and Mode II correctly. The ability of cohesive models to predict mode mixity was evaluated by performing analyses of the single leg bending (SLB) test, which exhibits a variable mode mixity with crack length. Accordingly, two numerical integration methods were developed to compute the energy partitioning: (i) a local calculation of the accumulated work of tractions at each point along the crack path, and (ii) a global J-integral “snapshot” calculation along a contour around the process zone. In the case of a composite laminate with properties characterized by short fracture process zone (FPZ), the results of these two methods correlate well with each other and with a linear elastic fracture mechanics solution. However, FPZs can be long due to fiber bridging or due to the intrinsic toughness of the material. Then, the results of mode-mixity calculations obtained with various methods vary widely from each other. It is argued that the global J-integral calculation is the most accurate interpretation of the energy release rate and mode mixity for either short or long process zones. This solution will provide a more accurate characterization of resistance curves and mode mixity in experimental results, and it will also guide the development of more accurate mixed-mode cohesive laws for tougher materials characterized by strong R-curve responses, such as thermo-plastic composites.
Proceedings Inclusion? Definite: Post-meeting proceedings

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