Accession Number : AD0467519


Title :   A BIBLIOGRAPHY OF REFERENCES FOR THE THERMOPHYSICAL PROPERTIES OF HELIUM-4, HYDROGEN, DEUTERIUM, HYDROGEN DEUTERIDE, NEON, ARGON, NITROGEN, OXYGEN, CARBON DIOXIDE, METHANE, ETHANE, KRYPTON, AND REFRIGERANTS 13, 14, AND 23


Corporate Author : NATIONAL BUREAU OF STANDARDS BOULDER CO


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/467519.pdf


Report Date : 18 May 1965


Pagination or Media Count : 146


Abstract : This bibliography represents a search of the information storage and retrieval system of the Cryogenic Data Center. The storage and retrieval system contains approximately 11,000 references to properties of materials at cryogenic temperatures. The bibliography contains references to the following fluids and their mixtures: helium-4, normal hydrogen, parahydrogen, orthohydrogen, deuterium and hydrogen deuteride, neon, argon, nitrogen, oxygen, carbon dioxide, methane, ethane, krypton, and refrigerants 13, 14, and 23. The properties which were searched for are: PVT data, compressibility, expansivity, vapor pressure, melting line, triple point, boiling point, critical point, solid transition points, phase diagram, latent heats, heat capacity, enthalpy, entropy, velocity of sound, thermal conductivity, viscosity, equations of state, Joule-Thomson coefficient, and surface tension. The Cryogenic Data Center is engaged in maintaining an awareness of the world's literature on the properties of materials at cryogenic temperatures and in particular on the properties of the cryogenic fluids.


Descriptors :   *THERMAL PROPERTIES , TEMPERATURE , NITROGEN , HYDROGEN , GASES , OXYGEN , THERMAL EXPANSION , MELTING , THERMAL CONDUCTIVITY , HELIUM , DEUTERIUM , METHANE , CARBON DIOXIDE , ARGON , VISCOSITY , ENTHALPY , CRYOGENICS , NEON , REFRIGERANTS , SURFACE TENSION , ENTROPY , COMPRESSIVE PROPERTIES , ATOMIC STRUCTURE , BOILING , KRYPTON , HEAT OF FUSION , HEAT OF SUBLIMATION , DENSITY


Subject Categories : Thermodynamics


Distribution Statement : APPROVED FOR PUBLIC RELEASE