Affiliation:
1. AWE, Aldermaston, Reading RG7 4PR, United Kingdom
2. The University of Manchester at Harwell, Diamond Light Source, Didcot, Oxfordshire OX11 0DE, United Kingdom
Abstract
The shear strength of materials under shock-loading conditions has long been recognized as being of the utmost importance, as this can be related to deformation mechanisms and ballistic performance. As such, a number of experimental techniques have been developed to study this component of shock loading, and in this paper, we concentrate on the embedded lateral stress gauge. We acknowledge that as the requirements of the target assembly necessitate that the target be sectioned, the gauge glued in place, and the target reassembled, it is possible that the gauge response is dominated by its local environment. As a consequence, we have, therefore, asked three questions—can the gauge be placed in a known stress condition and measure the correct lateral stress and shear strengths; do the results from the lateral stress gauge agree with other non-invasive techniques; and finally, if we do trust the results from lateral gauges, can they be placed in context with other known shock-induced materials responses. In all three cases, we believe that the answer is yes, and we present evidence for all three situations.
Subject
General Physics and Astronomy
Reference75 articles.
1. G. T. Gray III, in Shock Compression of Condensed Matter—1989, edited by S. C. Schmidt, J. N. Johnson, and L. W. Davison (Amsterdam, North-Holland, 1990), p. 407.
2. Reshock and release of shock‐compressed 6061‐T6 aluminum
3. Dynamic Constitutive and Failure Behavior of a Two-Phase Tungsten Composite
4. K. E. Duprey and R. J. Clifton, in Shock Compression of Condensed Matter—1999, edited by M. D. Furnish, L. C. Chhabildas, and R. S. Hixson (AIP Press, Melville, NY, 2000), p. 447.