Dynamic response and damage evolution in composite materials subjected to underwater explosive loading: An experimental and computational study

Abstract: The dynamic response and damage evolution of composite materials subjected to underwater explosive loading has been studied. The study utilizes both experimental and numerical techniques to aid in the understanding of the behavior of these materials under shock loading conditions. The objective of the project is to develop a better understanding of the response of composite materials when subjected to shock loading conditions leading to more efficiently designed structures. The focus of the work is on performi… Show more

“…Some of the Fluid-Structure Interaction (FSI) studies with composite structures were liquid sloshing in composite tanks [1,2]. Other FSI studies were composite structures subjected to underwater explosion [3,4]. More recently, a series of studies have been conducted to understand the effect of FSI on composite structures [5][6][7][8][9][10].…”

Numerical modal analysis of composite structures coupled with water

“…Some of the Fluid-Structure Interaction (FSI) studies with composite structures were liquid sloshing in composite tanks [1,2]. Other FSI studies were composite structures subjected to underwater explosion [3,4]. More recently, a series of studies have been conducted to understand the effect of FSI on composite structures [5][6][7][8][9][10].…”

Numerical modal analysis of composite structures coupled with water

“…LeBlanc and Shukla [24] also used a water-filled conical shock tube to examine underwater blast loading of clamped composite plates but with the shock wave generated via internal detonation of an explosive charge. Wadley et al [25] designed an underwater explosive test rig comprising a water-filled cardboard cylinder placed on a steel plate machined with a recess in which the sandwich specimen was located.…”

One-dimensional response of sandwich plates to underwater blast: Fluid-structure interaction experiments and simulations

“…The same authors [5] also utilized an Underwater Shock Loading Simulator combined with digital image correlation to show that for sandwich constructions lower density cores yield higher blast performance than high density cores due to their larger core compression capability. LeBlanc and Shukla [6,7] have studied the response of flat and curved composite plates to far field underwater explosive loading through experimental and computational methods. Franz et al [8] and Mouritz et al [9] studied the effects of an underwater explosion at different standoff distances on a glass composite laminate.…”

Near Field Underwater Explosion Response of Polyurea Coated Composite Plates