@Article{cmes.2019.04596, AUTHOR = {Zhijie Huang, Zuyu Chen, Xiaodan Ren, Jing Hu, Xuedong Zhang, Lu Hai}, TITLE = {Centrifuge Model Tests and Numerical Simulations of the Impact of Underwater Explosion on an Air-Backed Steel Plate}, JOURNAL = {Computer Modeling in Engineering \& Sciences}, VOLUME = {118}, YEAR = {2019}, NUMBER = {1}, PAGES = {139--155}, URL = {http://www.techscience.com/CMES/v118n1/27455}, ISSN = {1526-1506}, ABSTRACT = {Damage and threats to hydraulic and submarine structures by underwater explosions (UNDEXs) have raised much attention. The centrifuge model test, compared to prototype test, is a more promising way to examine the problem while reducing cost and satisfying the similitude requirements of both Mach and Froude numbers simultaneously. This study used a systematic approach employing centrifuge model tests and numerical simulations to investigate the effects of UNDEXs on an air-backed steel plate. Nineteen methodical centrifuge tests of UNDEXs were conducted. The shock wave pressure, bubble oscillation pressure, acceleration and the strain of the air-backed steel plate were recorded and compared with numerical studies using the finite element analysis (FEA) commercial software ABAQUS. By implementing empirically derived and physically measured pressures into the numerical models, the effects of the shock wave and bubble oscillation on the steel plate were investigated. Generally, the numerical results were in agreement with the experimental results. These results showed that the peak pressure of an UNDEX has a significant effect on the peak acceleration of the steel plate and that the impulse of the UNDEX pressure governs the peak strain of the steel plate.}, DOI = {10.31614/cmes.2019.04596} }