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References (22)
-
J. Saunders (1945)
An apparatus for photographing interference phenomenaJournal of research of the National Bureau of Standards, 35
-
Saunders Saunders (1945)
Atmaratus for PhotonraDhina Interference PheGomenaJ. Research Natl. Bur. Standards, 35
-
R. Stutzman, J. Salvaggi, H. Kirchner (1959)
AN INVESTIGATION OF THE THEORETICAL AND PRACTICAL ASPECTS OF THE THERMAL EXPANSION OF CERAMIC MATERIALS. VOLUME ONE-LITERATURE SURVEY. Summary Report for the Period July 1, 1958-August 31, 1959 -
P. Debye
Zur Theorie der spezifischen WärmenAnnalen der Physik, 344
-
D. Osborne, E. Westrum (1953)
The Heat Capacity of Thorium Dioxide from 10 to 305°K. The Heat Capacity Anomalies in Uranium Dioxide and Neptunium DioxideJournal of Chemical Physics, 21
-
G. Furukawa, T. Douglas, R. Mccoskey, D. Ginnings (1956)
THERMAL PROPERTIES OF ALUMINUM OXIDE FROM 0 TO 1,200 KJournal of research of the National Bureau of Standards, 57
-
T. Barron (1955)
LXXXII. On the thermal expansion of solids at low temperaturesPhilosophical Magazine Series 1, 46
-
V. Arp, J. Wilson, L. Winrich, P. Sikora (1962)
Thermal expansion of some engineering materials from 20 to 293°KCryogenics, 2
-
T. Barron, J. Morrison (1959)
Properties of Alkali Halide Crystals at Low TemperaturesPhysical Review, 115
-
Barron Barron (1955)
Thermal ExDansion of Solids at Low TemperaturesPhil. Mag., 46
-
Campbell Campbell, Grain Grain (1961)
Thermal Expansion of Alpha‐AluminaU. S. Bur. Mines Rept. Invest.
-
Mauer Mauer, Bolz Bolz (june 1, 1958)
Measurement of Thermal Expansion of Cermet Components by High Temperature X‐Ray DiffractionWADC (Wright Air Develop. Center) Tech. Rept.
-
Burke Burke, Mitoff Mitoff (1959)
Basic Science Meeting at M. I. T.Am. Ceram. Soc. Bull., 38
-
Geller Geller, Yavorsky Yavorsky (1945)
Effects of Some Oxide Additions on Thermal‐Lengtfi Changes of ZirconiaJ. Research Nutl. Bur. Standards, 35
-
W. Hume-rothery (1945)
On Grüneisen's equation for thermal expansion, 57
-
Engberg Engberg, Zehms Zehms (1958)
Thermal Expansion of Al 2 O 3 , BeO, MgO, B 4 C, Sic, and Tic Above 1000°C.U. S. Atomic Energy Comm. Rept.
-
J. Wachtman, W. Tefft, D. Lam, R. Stinchfield (1960)
Elastic Constants of Synthetic Single Crystal Corundum at Room TemperatureJournal of Research of the National Bureau of Standards. Section A, Physics and Chemistry, 64A
-
R. Geller (1941)
A resistor furnace, with some preliminary results up to 2,000 degrees CJournal of research of the National Bureau of Standards, 27
-
Merritt Merritt (1926)
Thermal Expansion of Some Fused Oxides Used as RefractoriesTrans. Am. Electrochem. Soc., 50
-
R. Geller, P. Yavorsky (1945)
Effects of some oxide additions on the thermal length changes of zirconiaJournal of research of the National Bureau of Standards, 35
-
Klein Klein (August 1958)
Measurement of Crystallographic Thermal Expansion of α‐Alumina and Beryllium Oxide to Elevated Temperatures Emphasizing Anisotropic EffectsU. S. Atomic Energy Comm. Rept.
-
Geller Geller (1941)
Resistor Furnace, with Some Preliminary Results up to 2000°C.J. Research Natl. Bur. Standards, 27
- Publisher
- Wiley
- Copyright
- Copyright © 1962 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 0002-7820
- eISSN
- 1551-2916
- DOI
- 10.1111/j.1151-2916.1962.tb11159.x
- Publisher site
- See Article on Publisher Site
Abstract
The linear thermal expansion of single‐crystal and polycrystalline aluminum oxide and poly‐crystalline thorium oxide was measured from 100° to 1100° K with an interferometric technique. For each substance the results are well described by Gruneisen's equation using a Nernst‐Linde‐mann energy function.
Journal
Journal of the American Ceramic Society – Wiley
Published: Jul 1, 1962