Reduced ODE Models Describing Coarsening Dynamics of Liquid Droplets: Derivation, Analysis and Numerics of Reduced ODE Models De,Used

Reduced ODE Models Describing Coarsening Dynamics of Liquid Droplets: Derivation, Analysis and Numerics of Reduced ODE Models De,Used

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SKU: DADAX383812328X
UPC: 9783838123288
Brand: Sudwestdeutscher Verlag Fur Hochschulschriften AG
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In this dissertation we consider the topic of derivation, analysis and numerics of reduced ODE models corresponding to a family of onedimensional lubrication equations. This family describes the dewetting process of nanoscopic thin liquid films on hydrophobized polymer substrates due to the presence of the longrange attractive van der Waals and shortrange Born repulsive intermolecular forces and takes account of all possible ranges of sliplengths at the polymer substrate interface. The final stages of the dewetting process are characterized by a slowtime coarsening dynamics of the remaining droplets that are separated and interact with each other through a nanoscopic ultra thin liquid layer. Reduced ODE models derived from underlying lubrication equations allow for an efficient analytical and numerical investigation of the coarsening process. Our interests in this study are to investigate the influence of sliplength on the coarsening dynamics using the derived reduced ODE models and to suggest methods for rigorous justification of these models.

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