Penetration and cratering experiments of graphite by 0.5-mm diameter steel spheres at various impact velocities
Article dans une revue avec comité de lecture
Auteur
Date
2014Journal
International Journal of Impact EngineeringRésumé
Cratering experiments have been conducted with 0.5-mm diameter AISI 52100 steel spherical projectiles and 30-mm diameter, 15-mm long graphite targets. The latter were made of a commercial grade of polycrystalline and porous graphite named EDM3 whose behavior is known as macroscopically isotropic. A two-stage light-gas gun launched the steel projectiles at velocities between 1.1 and 4.5 km s 1. In most cases, post-mortem tomographies revealed that the projectile was trapped, fragmented or not, inside the target. It showed that the apparent crater size and depth increase with the impact velocity. This is also the case of the crater volume which appears to follow a power law significantly different from those constructed in previous works for similar impact conditions and materials. Meanwhile, the projectile depth of penetration starts to decrease at velocities beyond 2.2 km s 1. This is firstly because of its plastic deformation and then, beyond 3.2 km s 1, because of its fragmentation. In addition to these three regimes of penetration behavior already described by a few authors, we suggest a fourth regime in which the projectile melting plays a significant role at velocities above 4.1 km s 1. A discussion of these four regimes is provided and indicates that each phenomenon may account for the local evolution of the depth of penetration.
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Article dans une revue avec comité de lectureSEISSON, G; HEBERT, David; BERTRON, I; CHEVALIER, J.M; HALLO, L; LESCOUTE, Emilien; VIDEAU, Laurent; COMBIS, Patrick; GUILLET, F; BOUSTIE, Michel; BERTHE, Laurent (Elsevier, 2013)The cratering process in brittle materials under hypervelocity impact (HVI) is of major relevance for debris shielding in spacecraft or high-power laser applications. Amongst other materials, carbon is of particular interest ...
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Article dans une revue avec comité de lectureHEBERT, David; BERTRON, I; CHEVALIER, J.M; HALLO, L; LESCOUTE, Emilien; VIDEAU, Laurent; COMBIS, Patrick; GUILLET, F; BERTHE, Laurent; SEISSON, G.; BOUSTIE, Michel (Elsevier, 2013)The cratering process in brittle materials under hypervelocity impact (HVI) is of major relevance for debris shielding in spacecraft or high-power laser applications. Amongst other materials, carbon is of particular interest ...
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Article dans une revue avec comité de lectureHÉBERT, David; SEISSON, Gabriel; RULLIER, Jean-Luc; BERTRON, Isabelle; HALLO, Ludovic; CHEVALIER, Jean Marc; THESSIEUX, C.; GUILLET, Francois; BOUSTIE, Michel; BERTHE, Laurent (Royal Society, The, 2017)We present experiments and numerical simulations of hypervelocity impacts of 0.5mm steel spheres into graphite, for velocities ranging between 1100 and 4500ms?1. Experiments have evidenced that, after a particular striking ...
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Article dans une revue avec comité de lectureHEBERT, David; SEISSON, G; RULLIER, J.-L; BERTRON, I; HALLO, L; CHEVALIER, J.M; THESSIEUX, C; GUILLET, F; BERTHE, Laurent (Royal Society, The, 2017)We present experiments and numerical simulations of hypervelocity impacts of 0.5 mm steel spheres into graphite, for velocities ranging between 1100 and 4500 m s−1. Experiments have evidenced that, after a particular ...
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Dynamic fragmentation of graphite under laser-driven shocks: Identification of four damage regimes Article dans une revue avec comité de lectureSEISSON, Gabriel; PRUDHOMME, Gabriel; FRUGIER, Pierre Antoine; HÉBERT, David; LESCOUTE, Emilien; SOLLIER, Arnaud; VIDEAU, Laurent; MERCIER, Patrick; BOUSTIE, Michel; BERTHE, Laurent (Elsevier, 2016)This study presents the results of a large experimental campaign conducted on the Luli2000 laser facility. Thin targets of a commercial grade of porous graphite were submitted to high-power laser-driven shocks leading to ...