Abstract
Shock Hugoniot calculations are carried out for lead (Pb) using both solid and liquid state theories. The Hugoniots in solid and liquid cases are in mutual agreement within the experimental uncertainties. However, the shock temperatures are quite different as computed from solid and liquid state theories. This fact can perhaps be used to detect melting along the shock Hugoniot provided the shock temperatures are accurately measured.
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References
Andersen O K 1973Solid State Commun. 13 133
Al’tshuler L V, Bakanova A A and Trunin R F 1974JETP Lett. 20 13
Bennett B I, Johnson J D, Kerley G I and Rood G T 1978 Los Alamos Sci. Lab. Rep. LA 7130
Brown J M and McQueen R G 1986J. Geophys. Res. 91 7485
Carter W J 1973 inMetallurgical effects at high strain rates (eds) R W Rohde, B M Butcher, J R Holland and C H Karnes (New York: Plenum) p. 171
Carter W J, Fritz J, Marsh S P and McQueen R G 1975J. Phys. Chem. Solids 36 741
Del’puech A and Menlin A 1983Shock waves in condensed matter, Proc. APS Topical Conf. Santa Fe, New Mexico, (eds) J R Asay, R A Graham and G K Straub (New York: Elsevier)
Dienes G J, Welch D O and Paskin A 1980J. Phys. Chem. Solids 41 1373
Duvall G E and Graham R A 1977Rev. Mod. Phys. 49 523
Glotzel D and McMahan A K 1979Phys. Rev. B20 3210
Godwal B K 1980J. Phys. F10 377
Godwal B K, Sikka S K and Chidambaram R 1983Phys. Rep. 102 123
Gust W H and Royce E B 1973Phys. Rev. B8 3595
Heine V and Weaire D 1970Solid State Phys. 24 249
Johansson B and Rosengren A 1974 Fo A4 Rapport 4594-A2
Justus B L, Huston A L and Campillo A J 1986 inShock waves in condensed matter (ed.) Y M Gupta (New York: Plenum) p. 249
Kerley G I 1980J. Chem. Phys. 73 469, 478
Mansoori G A and Canfield F B 1969J. Chem. Phys. 51 4958
McMahan A K, Hord B L and Ross M 1977Phys. Rev. B15 726
McMahan A K, Skriver H L and Johansson B 1981Phys. Rev. B23 5016
McQueen R G and Marsh S P 1960J. Appl. Phys. 31 1253
McQueen R G, Fritz J N and Morris C E 1983Shock waves in condensed matter, Proc. Topical Conf., Santa Fe, New Mexico (eds) J R Assay, R A Graham and G K Straub (New York: Elsevier)
Mineev V N and Savinov E V 1967Sov. Phys. JETP 25 411
Moriarty J A, Young D A and Ross M 1984Phys. Rev. B30 578
Ng A, Parfeniuk and DaSilva L 1985Phys. Rev. Lett. 54 2604
Radousky H B, Ross M, Mitchell A C and Nellis W J 1985Phys Rev. B31 1457
Radousky H B, Mitchell A C, Nellis W J and Ross M inShock waves in condensed matter (ed.) Y M Gupta (New York: Plenum) p. 467
Rasaiah J and Stell G 1970Mol. Phys. 18 249
Ross M 1979J. Chem. Phys. 71 1567
Ross M 1980Phys. Rev. B21 3140
Ross M 1986 in Advances in high pressure studies on chemical and biochemical systems, NATO Advanced Study Institute, Corfu, Greece
Schroeder R C and McMaster W H 1972 Lawrence Radiation Lab. Rep. UCRL 51253
Sikka S K and Godwal B K 1987Phys. Rev. B35 1446
Skriver H 1984 inThe LMTO method (New York: Springer)
Stroud D and Ashcroft N W 1978Solid State Phys. 33 1
Swenson C A, Shaner J W and Brown J M 1986 Los Alamos Natl. Lab. Rep. LA-UR-86-1726
Vaidya S N and Kennedy G C 1970J. Phys. Chem. Solids 31 2329
Voropinov A I, Gandelman G M, and Podval’ny V G 1970Sov. Phys. Usp. 13 56
Welch D O, Dienes G J and Paskin A 1978J. Phys. Chem. Solids 39 589
Zel’dovich Yab and Raizer Yub 1967 inPhysics of shock waves and high-temperature hydrodynamic phenomena (New York: Academic Press), Vols 1, 2
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Godwal, B.K., Sikka, S.K. & Chidambaram, R. Shock Hugoniot calculations and melting in Pb. Pramana - J Phys 29, 93–101 (1987). https://doi.org/10.1007/BF02845681
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DOI: https://doi.org/10.1007/BF02845681