Concerning free volume quantities and the glass temperature |
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| Authors: | Robert Simha Charles E. Weil |
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| Affiliation: | 1. Division of Macromolecular Science , Case Western Reserve University , Cleveland, Ohio;2. Division of Macromolecular Science , Case Western Reserve University , Cleveland, Ohio;3. B. F. Goodrich , Chemical Company , Avon Lake, Ohio |
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| Abstract: | Free volume quantities proposed earlier by Boyer and Simha in connection with the glass transition are reformulated by taking into account the temperature dependence of the thermal expansivities α l and αg for the liquid and the glass, respectively. This necessitates an extrapolation of the liquid to temperatures below Tg which is performed by means of the reduced volume-temperature function established and given a theoretical foundation previously. For the glass, low temperature experimental data, encompassing all relaxations occuring below Tg, are required. Two polymer series are examined in detail, namely, poly(methacrylates) and poly(vinyl) alkyl ethers, where αg has been measured between at least 30°K and Tg. Results for poly(methylacrylate) and poly(styrene) are also given. The systematic decrease in the product (αl - αg) · T|T=Tg with increasing length of the side chain noted previously is considerably reduced but not eliminated when the appropriately corrected expression is substituted instead. However, the free volume fraction related to the quantity αlT|T=Tg remains more nearly invariant in the polymers analyzed. An alternative treatment is discussed which considers an occupied volume expanding below Tg by a mechanism of thermal vibrations solely. Experimental and theoretical means of obtaining this quantity arc suggested. |
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| Keywords: | Liquid–liquid transition Poly(n-alkyl methacrylates) Thermo-stimulated currents Dynamic dielectric spectroscopy |
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