Alpha-plutonium's polycrystalline elastic moduli over its full temperature range.
暂无分享,去创建一个
J. Betts | A. Migliori | C. Pantea | H. Ledbetter | F. Freibert | I. Stroe | C. Mielke | J. Mitchell | S. Harrington | M. Ramos | D. Dooley
[1] J. Betts,et al. Zero-temperature bulk modulus of alpha-plutonium , 2005 .
[2] J. Betts,et al. Experimental electronic heat capacities of alpha- and delta-plutonium: heavy-fermion physics in an element. , 2003, Physical review letters.
[3] G. Kotliar,et al. Calculated Phonon Spectra of Plutonium at High Temperatures , 2003, Science.
[4] Wall,et al. Local structure and vibrational properties of alpha'-Pu martensite in Ga-stabilized delta-Pu , 2003 .
[5] T. P. Weihs,et al. Creep deformation in multilayered and microlaminate materials , 2003 .
[6] D. Wallace. Electronic and phonon properties of six crystalline phases of Pu metal , 1998 .
[7] Julian D. Maynard,et al. Resonant ultrasound spectroscopy , 1998, Medical Imaging.
[8] H. Ledbetter,et al. Low-temperature elastic coefficients of polycrystalline indium , 1997 .
[9] J. Goldstone,et al. Atomic thermal vibrations of the light actinide elements , 1994 .
[10] H. Ledbetter. Relationship between Bulk‐Modulus Temperature Dependence and Thermal Expansivity , 1994 .
[11] W. Holzapfel. Systematics and anomalies in the equations of states for the lanthanide and actinide elements , 1993 .
[12] R. Jaffe,et al. Bound states in twisted Aharonov-Bohm tubes , 1993 .
[13] S. Dabos-Seignon,et al. Pressure-induced phase transition in α-Pu , 1993 .
[14] O. Anderson. Rectangular parallelepiped resonance--a technique of resonance ultrasound and its applications to the determination of elasticity at high temperatures. , 1992, The Journal of the Acoustical Society of America.
[15] H. Ledbetter. Atomic Frequency and Elastic Constants , 1991 .
[16] Johansson,et al. Relativistic effects on the thermal expansion of the actinide elements. , 1990, Physical review. B, Condensed matter.
[17] Janak,et al. Calculated thermal properties of metals. , 1988, Physical review. B, Condensed matter.
[18] R. Adams,et al. The chemical thermodynamics of nuclear materials VIII. The high-temperature heat capacity of unalloyed plutonium metal , 1983 .
[19] H. Hughes,et al. 3s multiplets in X-ray photoemission from layered magnetic intercalates , 1983 .
[20] B. Lüthi,et al. Ultrasonic Studies Near Structural Phase Transitions , 1981 .
[21] C. Calder,et al. Noncontact measurement of the elastic constants of plutonium at elevated temperatures , 1981 .
[22] R. Roof. Compression and Compressibility Studies of Plutonium and a Plutonium-Gallium Alloy , 1980 .
[23] J. Tallon. The volume dependence of elastic moduli and the Born-Durand melting hypothesis , 1979 .
[24] J. E. Gordon,et al. Heat capacities of plutonium and neptunium , 1976, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[25] A. Freeman,et al. 2 – Electronic Energy Band Structure of the Actinide Metals* , 1974 .
[26] A. May. Extrapolation of the Shear Elastic Moduli of Face Centred Cubic Solids to the Molten State , 1970, Nature.
[27] Y. P. Varshni. Temperature Dependence of the Elastic Constants , 1970 .
[28] J. Bouchet,et al. Les proprietes elastiques du plutonium en phase ϵ cubique centree , 1968 .
[29] S. Shtrikman,et al. Evidence for a Cooperative Electron Transition in Plutonium at Low Temperatures , 1968 .
[30] J. F. Andrew,et al. Compressibility of oriented alpha plutonium , 1966 .
[31] G. Meaden,et al. The electrical resistivity of α-manganese between 2 and 325° K , 1965 .
[32] A. E. Kay,et al. The specific heat of plutonium at high temperatures , 1964 .
[33] W. Zachariasen,et al. The crystal structure of alpha plutonium metal , 1963 .
[34] T. Sandenaw. Effects of self-induced radiation damage on the low temperature heat capacity of a specimen of electro-refined high purity plutonium , 1962 .
[35] F. Herbstein. Methods of measuring Debye temperatures and comparison of results for some cubic crystals , 1961 .
[36] P. W. Bridgman. Compression and the α-β Phase Transition of Plutonium , 1959 .
[37] M. Born. Thermodynamics of Crystals and Melting , 1939 .