Journal
JOURNAL OF PHYSICS-CONDENSED MATTER
Volume 21, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0953-8984/21/2/025401
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Analytical expressions have been developed in which the elastic behaviour of the alpha-quartz and alpha-cristobalite molecular tetrahedral frameworks of both silica and germania are modelled by rotation, or dilation or concurrent rotation and dilation of the tetrahedra. Rotation and dilation of the tetrahedra both produce negative Poisson's ratios (auxetic behaviour), whereas both positive and negative values are possible when these mechanisms act concurrently. Concurrent rotation and dilation of the tetrahedra reproduces with remarkable accuracy both the positive and negative nu(31) Poisson's ratios observed for silica alpha-quartz and alpha-cristobalite, respectively, when loaded in the x(3) direction. A parametric fit of the concurrent model to the germania alpha-quartz experimental nu(31) Poisson's ratio is used to predict nu(31) for germania alpha-cristobalite, for which no experimental value exists. This is predicted to be +0.007. Strain-dependent nu(31) trends, due to concurrent rotation and dilation in the silica structures, are in broad agreement with those predicted from pair-potential calculations, although significant differences do occur in the absolute values. With the model of concurrent dilation and rotation of the tetrahedra we predict that an alternative uniaxial stress (sigma(3))-induced phase exists for both silica, alpha-quartz and alpha-cristobalite, and germania, alpha-cristobalite, having geometries in reasonable agreement with beta-quartz and idealized beta-cristobalite, respectively.
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