Barker L M, Hollenbach R E. Shock Wave Study of the α?ε Phase Transition in Iron [J]. J Appl Phys, 1974, 45 (11): 4872-4887.
[2]
Veeser L R, Gray G T, Vorthman J E, et al. High Pressure Response of a High Purity Iron [A]//Furnish M D, Chhabidas L C, Hixson R S. Shock Compression of Condensed Matter-1999 [C]. Utah: American Institute of Physics, 2000: 73-76.
[3]
Christophe V, Francois B, Gilles R. Study of Spalling for High Purity Iron below and above Induced α?β Phase Transition [A]//Furnish M D, Cupta Y M, Forbes J M. Shock Compression of Condensed Matter-2003 [C]. New York: American Institute of Physics, 2004: 511-514.
[4]
Christophe V, Gilles R. Iron Damage and Spalling Behavior below and above Induced α?β Phase Transition [A]//Furnish M D, Elert M, Russell T P. Shock Compression of Condensed Matter-2005 [C]. Maryland: American Institute of Physics, 2006: 678-681.
[5]
Tang Z P, Tang X J, Zhang X H, et al. Abnormal Spall Behavior Observation in Pure Iron and FeMnNi Alloy Undergoing α?ε Phase Transition [A]//Furnish M D, Elert M, Russell T P. Shock Compression of Condensed Matter-2005 [C]. Maryland: American Institute of Physics, 2006: 662-665.
[6]
Zhang X H, Tang Z P. Experimental Study on Characteristics of Shock-Induced Phase Transition and Spallation in FeMnNi Alloy [J]. Chinese Journal Explosion and Shock Waves, 2007, 27(2): 103-108. (in Chinese)
Yu J Q, Xiao Y B, Zhou X M. Study on Sound Velocity and Unloading Path for Single Crystal LiF under Shock Compression [J]. Chinese Journal of High Pressure Physics, 2005, 19(2): 206-212. (in Chinese)
Petrovtsev A V, Bychenkov V A. Numerical Simulation of Elastic-Viscous-Plastic Properties, Polymorphous Transformations and Spall Fracture in Iron [A]//Furnish M D, Thadhani N N, Horie Y. Shock Compression of Condensed Matter-2001 [C]. Atlanta: American Institute of Physics, 2002: 591-594.
