High-rate loading of materials and structures

The design of lightweight structures to mitigate against dynamic loads such as explosive blasts and impacts of projectiles has received widespread attention. The focus of our research has been on designing new materials including alloys for enhancing the dynamic performance of protection structures. Most dynamic loading events involve complex phenomena such as fluid-structure interactions and dynamic instabilities. An understanding of the mechanics of these phenomena provides insights into designs of new material architectures and systems for dynamic applications.

Our work includes laboratory-scale experiments and numerical calculations to uncover some critical phenomena involved in blast and ballistic loading. These include Richtmyer-Meshkov instabilities in the high velocity impact of granular media against structures and instabilities in composites with extreme anisotropy that enhance ballistic protection capability. This understanding has been used to design of architected materials and structures for enhanced dynamic performance.

Key Literature

V.S. Deshpande, A. Heaver and N.A. Fleck (2006) An underwater shock simulator, Proceedings of the Royal Society of London, Series A, 462, 1021-1041.

Liu, NA. Fleck, H.N.G. Wadley and V.S. Deshpande (2013), The impact of sand slugs against beams and plates: coupled discrete/continuum calculations, Journal of the Mechanics and Physics of Solids, 61(8), 1798-1821.

T. Uth and V.S. Deshpande (2014), Unsteady penetration of a target by a liquid jet, Proceedings of the Academy of Sciences, USA, 110, 20028-20033

Liu, H.N.G. Wadley and V.S. Deshpande (2019), Failure mechanism maps for the impact of ultra-high molecular weight polyethylene composite beams by a blunt projectile, International Journal of Solids and Structures, 178, 180-198.

A. Goel, H.N.G. Wadley and V.S. Deshpande (2021), Manipulation of the granular fluid-structure interaction via sliding coating layers, International Journal of Impact Engineering, 157, 104005.

Resources

Videos

A video showing the high-speed impact of a projectile against a Ultra-high molecular weight polyethylene composites beam. Stills from the corresponding micromechanical simulation are also shown.