Low Temperature Melting of Elements under High Pressure and Its Progression in the Periodic Table
- 1 September 1968
- journal article
- Published by IOP Publishing in Japanese Journal of Applied Physics
- Vol. 7 (9) , 989
- https://doi.org/10.1143/jjap.7.989
Abstract
Data Obtained and gathered to data regarding melting phenomena in elements and compounds have been both reviewed and summarized in this paper. The result has yielded information concerning a new melting relation for materials, the characteristics of which are described in the following three items. 1) Any solid possesses a maximum melting point at a characteristic applied hydrostatic pressure. 2) At any temperature below the maximum melting point the solid melts at two characteristic pressures. 3) The pressure corresponding to the maximum melting point is lower in a solid composed of elements having a larger mass number; the progression of pressure for the maximum melting point is evident in each group elements in the periodic table.Keywords
This publication has 71 references indexed in Scilit:
- Melting and High-Temperature Electrical Resistance of Gold under PressurePhysical Review B, 1965
- Fusion Curve of Cerium to 70 Kilobar and Phenomena Associated with Supercritical Behavior of fcc CeriumPhysical Review B, 1965
- Allotropy in Some Rare-Earth Metals at High PressuresScience, 1964
- Effect of Temperature and Pressure on the Electrical Resistance of Four Alkaline Earth MetalsPhysical Review B, 1963
- X-ray Diffraction Studies on Tin at High Pressure and High TemperatureScience, 1963
- Melting Curves of Five Metals under High PressureThe Journal of Chemical Physics, 1962
- Experimental Fusion Curves of Indium and Tin to 105 000 AtmospheresPhysical Review B, 1960
- Determination of Atomic Distributions in Liquid Lead-Bismuth Alloys by Neutron and X-Ray DiffractionThe Journal of Chemical Physics, 1960
- Fusion Curves of Four Group VIII Metals to 100 000 AtmospheresPhysical Review B, 1959
- On the range of stability of the fluid stateTransactions of the Faraday Society, 1937