The Thermodynamics of a Strained Elastomer. III. The Thermal Coefficient of Modulus and the Statistical Theory of Elasticity
- 1 May 1948
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 19 (5) , 450-455
- https://doi.org/10.1063/1.1698154
Abstract
Published thermoelasticity data are critically analyzed by means of thermodynamic equations developed in the first paper of this series. Equations known to be of the proper form are fitted by least squares to the experimental data, which were first corrected to allow for the changes in shape when tested under variable temperature and constant length. If the measurements are accepted as truly reversible, the data show that several different elastomers depart considerably in some respects from the predictions of the statistical theory of elasticity. Some thermoelasticity measurements in torsion are reported which seem to give the most reliable evidence that stress is proportional to absolute temperature.This publication has 6 references indexed in Scilit:
- The Thermodynamics of a Strained Elastomer. I. General AnalysisJournal of Applied Physics, 1948
- Stress-Optical Properties of RubberNature, 1947
- The interaction between rubber and liquids. IX. The elastic behaviour of dry and swollen rubbersTransactions of the Faraday Society, 1946
- Some Relations Between Stress, Strain, and Temperature in a Pure-Gum Vulcanizate of GR-S Synthetic RubberJournal of Applied Physics, 1944
- Statistical Thermodynamics of Rubber. IIThe Journal of Chemical Physics, 1942
- A Theory of Large Elastic DeformationJournal of Applied Physics, 1940