Abstract
Shock wave appears widely in various complex systems and plays an important role in the fundamental research and engineering applications. Much effort has been devoted to getting insight into the microscopic structure and dynamic features on the shock front and obtaining the shock hugoniot of materials. The scope of this review would be limited to strong shock waves in fluid, considering that materials behave as fluid under strong impact loading. The development of methods used to study shock waves has been reviewed and the applicable conditions and features of these method has been summarized. The microscopic structures, non-equilibrium effects and dynamic processes on the shock front have been discussed, which have reference value for the modeling of shock wave in complex system.
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