S. Choukri scite author profile

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Damage Kinetics of Glass/Epoxy Composite Materials Under Dynamic Compression

Tarfaoui

Nême

Choukri³

2009

Journal of Composite Materials

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The strain rate sensitivity of glass fiber-reinforced polymer is studied by testing a single laminate configuration at strain rates of 200-2000 s À1 . The compressive material properties are determined by testing the laminate systems with different orientations from low to high strain rates. Samples of cubic geometry are tested in in-plane direction for seven fiber orientations, 08, AE208, AE308, AE458, AE608, AE708, and 908. Preliminary compressive stress-strain vs. strain rates data obtained show that the dynamic material strength increases with increasing strain rates. The tests show a strong material sensitivity to dynamic loading and fiber direction. For in-plane tests, there is a transitional strain rate and a transitional fiber orientation in the trends, reflecting the dependencies on strain rate and fiber orientation observed in experiments. Damage investigations have revealed that the failure events differ and depend on composite sequence lay-ups.

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Dynamic Response of Symmetric and Asymmetric E-Glass / Epoxy Laminates at High Strain Rates

Tarfaoui

Choukri

Nême

2010

KEM

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The mechanical properties of E-glass/epoxy composite at high strain rates are important in evaluating this kind of composite under dynamic and impulsive loading. The in-plane and out-of-plane compressive properties at strain rates from 300 to 2500 s-1 were tested with split Hopkinson pressure bar. Samples were tested in the thickness as well as in-plane direction for seven fibre orientations: 0°, 20°, 30°, 45°, 60°, 70° and 90°. The kinetics of damage and the failure modes were identified using a high-speed photography, infrared camera, optical techniques and a scanning electron microscope. Results of the study were analyzed in terms of maximum stress, Strain at maximum stress, failure modes, damage history and fibres orientation effects. From the experimental data, the stress-strain curves, compressive stiffness, and compressive strain of the composite are rate-sensitive in in-plane and out-of-plane compressive directions. The failure and damage mechanisms are implicitly related to the rise in temperature during static and dynamic compression.

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Thermo-Mechanical State of Bimaterial with an Interface Crack

Tarfaoui

Choukri²,

Nême

et al.

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Finite Element Data Reduction Based Energy Release Rate for Delamination Tests

Choukri

Karama

2012

KEM

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This paper deals with the advantages of the finite element modeling and design, especially, of delamination test coupons involved in fracture analysis of laminated composite plates. This is shown through two relevant aspects in delamination toughness measuring, say: data reduction and Iso-G delamination front design. Many experimental data reductions are based on beam theories and thus assumes straight delamination front during propagation, which is not true when investigating laminates with general anisotropy. Another aspect is also emphasized, and concern test procedure simplification to avoid displacement measurements. This is done through a direct energy release rate calculations via the crack closure integral method.

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S. Choukri

Effect of fibre orientation on mechanical properties of the laminated polymer composites subjected to out-of-plane high strain rate compressive loadings

Damage Kinetics of Glass/Epoxy Composite Materials Under Dynamic Compression

Dynamic Response of Symmetric and Asymmetric E-Glass / Epoxy Laminates at High Strain Rates

Thermo-Mechanical State of Bimaterial with an Interface Crack

Finite Element Data Reduction Based Energy Release Rate for Delamination Tests

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