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Abstract
After describing the Clausius limits of entropy, determined from the C pd ln T integral, and its current use in determining the entropy of metastable (atomic) crystals, we determine two fictive temperature T f values of four glasses – one from the integral of C pdT and the other from C pd ln T. The C p data of the two metal–alloy glasses are from this calorimetric study; the C p data of (i) quenched basalt composition glass fibers before and after partial annealing, and (ii) quenched NBS-710 composition glass fibers are taken from the literature. The C pd ln T integral, which is not the entropy change, and the C pdT integral yield the same T f values. Therefore, the effect of the difference between the cooling and heating paths in the liquid–glass transformation range is too small to indicate whether the residual entropy, S res, is a result of using the C pd ln T integral. This questions the notion that S res stems from use of the C pd ln T integral. Extrapolation of the C p values of the liquid and glass to high temperatures lead to erroneous T f values, as do permanent (irreversible) loss of the strain and surface energies of glass on initial heating.
Acknowledgements
This research was supported by a Discovery grant from Natural Sciences and Engineering Research Council of Canada to GPJ.
