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Article Dans Une Revue Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences Année : 2016

A pulse-shaping technique to investigate the behaviour of brittle materials subjected to plate-impact tests

Résumé

Owing to their significant hardness and compressive strengths, ceramic materials are widely employed for use with protective systems subjected to high-velocity impact loadings. Therefore, their mechanical behaviour along with damage mechanisms need to be significantly investigated as a function of loading rates. However, the classical plate-impact testing procedures produce shock loadings in the brittle sample material which cause unrealistic levels of loading rates. Additionally, high-pulsed power techniques and/or functionally graded materials used as flyer plates to smooth the loading pulse remain costly, and are generally difficult to implement. In this study, a shockless plate-impact technique based on the use of either a wavy-machined flyer plate or buffer plate that can be produced by chip-forming is proposed. A series of numerical simulations using an explicit transient dynamic finite-element code have been performed to design and validate the experimental testing configuration. The calculations, conducted in two-dimensional (2D) plane-strain or in 2D axisymmetric modes, prove that the ‘wavy’ contact surface will produce a pulse-shaping effect, whereas the buffer plate will produce a homogenizing effect of the stress field along the transverse direction of the sample. In addition, ‘wavy-shape’ geometries of different sizes provide an easy way to change the level of loading rate and rise time in an experimentally tested ceramic specimen. Finally, when a shockless compression loading method is applied to the sample, a Lagrangian analysis of data is made possible by considering an assemblage of ceramic plates of different thicknesses in the target, so the axial stress–strain response of the brittle sample material can be provided. This article is part of the themed issue ‘Experimental testing and modelling of brittle materials at high strain rates’.

Dates et versions

hal-02080738 , version 1 (27-03-2019)

Identifiants

Citer

Pascal Forquin, Jean-Luc Zinszner. A pulse-shaping technique to investigate the behaviour of brittle materials subjected to plate-impact tests. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2016, 375 (2085), pp.20160333. ⟨10.1098/rsta.2016.0333⟩. ⟨hal-02080738⟩
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