Numerical design and experimental validation of shockless plate impact configurations for the Lagrangian analysis of armor ceramics

Author:

Genevois Julia1,Forquin Pascal1ORCID,Zinszner Jean-Luc2

Affiliation:

1. Univ. Grenoble Alpes, CNRS, G-INP, Laboratoire 3SR 1 , Grenoble, France

2. CEA Gramat 2 , Gramat, France

Abstract

Ceramic materials are widely used in armor or protective structures, providing weight saving at equivalent performance in comparison to their steel counterparts. Plate-impact experiments are commonly used to investigate the dynamic behavior of ceramics under compressive loading. Using the particle velocity measured at the back of the target, some mechanical properties such as the Hugoniot elastic limit (HEL) as well as the Hugoniot curve of the material can be deduced. Nevertheless, these tests do not provide a direct measurement of the plastic hardening (post-HEL) behavior of the target. In the present work, an experimental shockless plate-impact configuration was developed and implemented to conduct a Lagrangian analysis. This configuration relies on the use of a wavy-machined flyer plate impacting a target made of a buffer, two ceramic plates of different thicknesses, and two window plates as backing. First, the use of wavy flyer plates to generate a loading ramp was validated by considering the impact of the wavy-machined flyer plate against a target, both made of 316L steel. A numerical analysis of this test was developed to confirm the pulse-shaping effect observed experimentally. Next, a ceramic, F99.7 alumina was subjected to the shockless plate impact test in Lagrangian configuration considering the same steel as a buffer and flyer plate material. These tests coupled with Lagrangian analysis enable the curve of axial-stress vs axial-strain beyond the isentropic elastic limit (IEL) to be deduced. The experimental data allow identifying the parameters of an elastoplastic with strain-hardening model to describe the behavior of the tested alumina.

Publisher

AIP Publishing

Reference37 articles.

1. Dynamic behavior of ceramic materials

2. P. Forquin , “Endommagement et fissuration ee matériaux fragiles sous impact balistique, rôle de la microstructure,” Ph.D. thesis (Ecole Normale Supérieure De Cachan, 2003).

3. A. Cosculluela , “Plasticité, endommagements Et ruptures Des alumines sous sollicitations dynamiques triaxiales: Influence De La taille De grains,” Ph.D. thesis (Université De Bordeaux I, 1992).

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