Natthawat Hongkarnjanakul scite author profile

International audienceThis paper presents a validation of low-velocity impact Finite Element (FE) modelling. Based on switching ply location of reference layup [02,452,902,-452]s T700GC/M21 laminated plates from Bouvet et al. (2012) [1], twelve possible layups under a constraint of double-ply, mirror-symmetric, balanced, and quasi- isotropic are allowed. However only seven layups are chosen for the study and one of them reveals the importance of longitudinal fibre compressive failure during impact events. Therefore, the second aspect of this work is the introduction of a fibre compressive failure law associated with fracture damage development. This makes it possible to improve the simulation for all seven different layups. Good correspondence is achieved between simulation and experiment for aspects such as delamination areas/shapes and force-displacement responses. The influence of the addition of fibre compressive failure according to fracture toughness in mode I is discussed

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Failure analysis of CFRP laminates subjected to compression after impact: FE simulation using discrete interface elements

Rivallant¹,

Bouvet²,

Hongkarnjanakul³

2013

Composites Part A: Applied Science and Manufacturing

175

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This paper presents a model for the numerical simulation of impact damage, permanent indentation and compression after impact (CAI) in CFRP laminates. The same model is used for the formation of damage developing during both low-velocity/low-energy impact tests and CAI tests. The different impact and CAI elementary damage types are taken into account, i.e. matrix cracking, fiber failure and interface delamination. Experimental tests and model results are compared, and this comparison is used to highlight the laminate failure scenario during residual compression tests. Finally, the impact energy effect on the residual strength is evaluated and compared to experimental results.

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Natthawat Hongkarnjanakul

Validation of low velocity impact modelling on different stacking sequences of CFRP laminates and influence of fibre failure

Failure analysis of CFRP laminates subjected to compression after impact: FE simulation using discrete interface elements

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