Numerical Research on Implosion of Condensed Liners Used in Study of Shock Adiabat of Materials

Gang Hua Wang; Ming Xian Kan; Hai Long Zhao

doi:10.4028/www.scientific.net/AMM.477-478.1419

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 477-478Numerical Research on Implosion of Condensed...

Numerical Research on Implosion of Condensed Liners Used in Study of Shock Adiabat of Materials

Abstract:

Research on material properties under extreme conditions plays a great role in material science and high energy physics. Condensed liner accelerated by powerful pulse facilities has been used to compress the target liner. The motion of liner implosion driven by a pulse of current of several microseconds rise time and 70~90 MA has been numerically studied in this paper. Liners state and velocities are discussed. Results of 2D magnetohydrodynamics liner implosion computations are presented in order to study the development of interface instability.

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Periodical:

Applied Mechanics and Materials (Volumes 477-478)

Pages:

1419-1422

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.477-478.1419

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Online since:

December 2013

Authors:

Gang Hua Wang, Ming Xian Kan*, Hai Long Zhao

Keywords:

Liner Implosion, Magnetohydrodynamics (MHD), Rayleigh-Taylor Instabilities

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References

[1] L. M. Barker. High-Pressure Quasi-Isentropic Impact Experiments. Shock Waves in Condensed Matter-1983, edited by J. R. Asay, R. A. Graham and G. K. Straub, (1984),P. 217.

DOI: 10.1016/b978-0-444-86904-3.50050-6

Google Scholar

[2] T.F. Thornhill, L.C. chhabildas, W.D. Reinhart, etc., International Journal of impact Engineering, Vol. 33, issue 1-12,P. 799.

Google Scholar

[3] J. E. Osher, H. H. Chau, G. R. Gathers et al. Int'l J. Impact Eng'Pg, 5, (1986),P. 501.

Google Scholar

[4] R. E. Turner, LLNL Experiments at OMEGA in FY05. UCRL-TR-216229, (2005).

Google Scholar

[5] R. W. Lemke et al., J. Appl. Phys. 98, (2005) ,P. 073530.

Google Scholar

[6] A. M. Buiko, S. F. Garanin, V. V. Zmushko, et al., Journal of Applied Mechanics and Technical Physics, Vol. 50, No. 3, (2009) , P. 361.

Google Scholar

[7] A. M. Buyko, O. M. Burenkov, V. N. Mokhov, et al., ON Feasibility to Achieve High Pressures with Disk EMG Driven Implosion liners, iEEE 1999,P. 1145.

Google Scholar