Microcontinuum field theories constitute an extension of classical field theories - of elastic solids, viscous fluids, electromagnetism, and the like - to microscopic length and time scales. Material bodies are viewed as collections of a large number of deformable particles (sub-continua), suitable for modeling blood, porous media, polymers, liquid crystals, slurries, and composite materials.
This volume extends and applies the ideas developed in the first volume, Microcontinuum Field Theories: Foundations and Solids, to liquid crystals, biological fluids, and other microstretch and micomorphic fluids. The theory makes it possible to discuss properties of such materials that are beyond the scope of classical field theories and may provide a basis for the resolution of some outstanding problems, such as turbulence.
Inhaltsverzeichnis
Preface. - Micropolar Fluid Dynamics. - Electrodynamics of Micropolar Fluids. - Anistotropic Fluids and Suspensions. - Liquid Crystals. - Electrodynamics of Liquid Crystals. - Selected Problems in Liquid Crystals. - Microstretch Fluids. - Electrodynamics of Polymeric Liquid Crystals. - Micromorphic Fluids. - References.
