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Material dynamics under extreme conditions of pressure and strain rate

材料科学 晶体孪晶 应变率 打滑(空气动力学) 相变 层错能 热力学 凝聚态物理 微观结构 复合材料 物理
作者
B. A. Remington,P. G. Allen,Eduardo M. Bringa,J. Hawreliak,D. Ho,K. Thomas Lorenz,H. E. Lorenzana,J. M. McNaney,Marc A. Meyers,S. W. Pollaine,K. Rosolanková,B. Sadik,M. Schneider,Damian Swift,J. S. Wark,B. Yaakobi
出处
期刊:Materials Science and Technology [Maney Publishing]
卷期号:22 (4): 474-488 被引量:124
标识
DOI:10.1179/174328406x91069
摘要

Solid state experiments at extreme pressures (10–100 GPa) and strain rates (10 6 –10 8 s −1 ) are being developed on high energy laser facilities, and offer the possibility for exploring new regimes of materials science. These extreme solid state conditions can be accessed with either shock loading or with a quasi-isentropic ramped pressure drive. Velocity interferometer measurements establish the high pressure conditions. Constitutive models for solid state strength under these conditions are tested by comparing 2D continuum simulations with experiments measuring perturbation growth from the Rayleigh–Taylor instability in solid state samples. Lattice compression, phase and temperature are deduced from extended X-ray absorption fine structure (EXAFS) measurements, from which the shock induced α– ω phase transition in Ti and the α– ϵ phase transition in Fe, are inferred to occur on subnanosec time scales. Time resolved lattice response and phase can also be measured with dynamic X-ray diffraction measurements, where the elastic–plastic (1D–3D) lattice relaxation in shocked Cu is shown to occur promptly (<1 ns). Subsequent large scale molecular dynamics (MD) simulations elucidate the microscopic dislocation dynamics that underlies this 1D–3D lattice relaxation. Deformation mechanisms are identified by examining the residual microstructure in recovered samples. The slip-twinning threshold in single crystal Cu shocked along the [001] direction is shown to occur at shock strengths of ∼20 GPa, whereas the corresponding transition for Cu shocked along the [134] direction occurs at higher shock strengths. This slip twinning threshold also depends on the stacking fault energy (SFE), being lower for low SFE materials. Designs have been developed for achieving much higher pressures, P>1000 GPa, in the solid state on the National Ignition Facility (NIF) laser.

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