A critical study on impact damage simulation of IM7/8552 composite laminate plate

•A critical evaluation of current dynamic modelling capability has been conducted.•The performance of dynamic failure models was benchmarked against plate impact experiments.•Future work for improving the performance of dynamic simulation has been suggested.•The mechanical response of a typical comp...

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Veröffentlicht in:	International journal of impact engineering 2019-05, Vol.127, p.100-109
Hauptverfasser:	Cui, Hao, Thomson, Daniel, Eskandari, Sina, Petrinic, Nik
Format:	Artikel
Sprache:	eng
Schlagworte:	Composites Computer simulation Failure modes Impact damage Impact loads Impact tests Laminates Mathematical models Modelling Numerical simulation Plate impact Plate impact tests Projectiles
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container_title	International journal of impact engineering
container_volume	127
creator	Cui, Hao Thomson, Daniel Eskandari, Sina Petrinic, Nik
description	•A critical evaluation of current dynamic modelling capability has been conducted.•The performance of dynamic failure models was benchmarked against plate impact experiments.•Future work for improving the performance of dynamic simulation has been suggested.•The mechanical response of a typical composite material at different loading rate was reviewed. Plate impact tests on IM7/8552 composite laminates with different projectile incident angles and velocities were carried out. Numerical simulations were conducted to predict the impact damage, with both Puck and LaRC failure criteria having been employed in this study. The dynamic failure performance of IM7/8552 lamina was reviewed first, by referring to data obtained from experiments conducted at a range of strain rates. The performance of the assessed modelling approaches was evaluated by comparing the results of simulations against experimentally (quantitatively and qualitatively) acquired projectile velocity, impact load and the failure modes of the plates. It proved to be challenging to model the macroscopic damage of the laminate at elevated projectile velocities; further improvement can be made through enriching the dynamic material data and mitigating the mismatch between the complex fibre architecture and its numerical representation.
doi_str_mv	10.1016/j.ijimpeng.2019.01.009
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source	ScienceDirect Journals (5 years ago - present)
subjects	Composites Computer simulation Failure modes Impact damage Impact loads Impact tests Laminates Mathematical models Modelling Numerical simulation Plate impact Plate impact tests Projectiles
title	A critical study on impact damage simulation of IM7/8552 composite laminate plate
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