Type of Publication: | Journal article |
URI (citable link): | http://nbn-resolving.de/urn:nbn:de:bsz:352-opus-108642 |
Author: | Brader, Joseph M.; Voigtmann, Thomas; Fuchs, Matthias; Larson, Ronald G.; Cates, Michael E. |
Year of publication: | 2009 |
Published in: | Proceedings of the National Academy of Sciences of the United States of America ; 106 (2009), 36. - pp. 15186-15191 |
Summary: |
The mode coupling theory (MCT) of glasses, while offering an incomplete description of glass transition physics, represents the only established route to first-principles prediction of rheological behavior in nonergodic materials such as colloidal glasses. However, the constitutive equations derivable from MCT are somewhat intractable, hindering their practical use and also their interpretation. Here, we present a schematic (single-mode) MCT model which incorporates the tensorial structure of the full theory. Using it, we calculate the dynamic yield surface for a large class of flows.
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Subject (DDC): | 530 Physics |
Keywords: | arrest, solidification, plasticity |
Link to License: | In Copyright |
Bibliography of Konstanz: | Yes |
BRADER, Joseph M., Thomas VOIGTMANN, Matthias FUCHS, Ronald G. LARSON, Michael E. CATES, 2009. Glass rheology : From mode-coupling theory to a dynamical yield criterion. In: Proceedings of the National Academy of Sciences of the United States of America. 106(36), pp. 15186-15191
@article{Brader2009Glass-9511, title={Glass rheology : From mode-coupling theory to a dynamical yield criterion}, year={2009}, number={36}, volume={106}, journal={Proceedings of the National Academy of Sciences of the United States of America}, pages={15186--15191}, author={Brader, Joseph M. and Voigtmann, Thomas and Fuchs, Matthias and Larson, Ronald G. and Cates, Michael E.} }
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