1. Preface -- 2. Asymptotic Continuum Models for Plasmas and Disparate Mass Gaseous Binary Mixtures (P. Degond) -- 3. Microscopic Foundations of the Mechanics of Gases and Granular Materials (C. Carcignani) -- 4. Quantization of Affine Bodies. Theory and Applications in Mechanics of Structured Media (J.J. Slawianowski) -- 5. Moving Least-Square Basis for the Band-Structure Calculations of Natural and Artificial Crystals (S. Jun, W.K. Liu) -- 6. Modelling Ziegler-Natta Polymerization in High Pressure Reactors (A. Fasano et al.) -- 7. Psuedofluids (G. Capriz) -- 8. A Thermodynamic Framework Incorporating the Effect of the Thermal History on the Solidification of Molten Polymers (K. Kannan, K.R. Rajagopal) -- 9. Effects of Stress on Formation and Properties of Semiconductor Nanostructures (H.T. Johnson) -- 10. Continua with Spin Structure (P.M. Mariano).
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SUMMARY OR ABSTRACT
Text of Note
Stringent industrial requirements of sophisticated performances and of circumstantial control for micro-devices or nanotechnology manufactures, and other types of machinery at multiple scales, can be satisfied often only by resort to or allowance for complex materials. The adjective complex beckons to the fact that the substructure influences gross mechanical behaviour in a prominent way and interactions due to substructural changes are represented directly. The description of the mechanical behaviour of complex bodies proposes a wide class of challenging problems from macroscopic-to-nano-world. The collection of chapters composing this book aims to explore some aspects of these problems, proposing also new matter of discussion together with specific solutions. Contributors are Carlo Cercignani, Gianfranco Capriz, Pierre Degond, Antonio Fasano, Harley T. Johnson, Sukky Jun, Krishna Kannan, Wing Kam Liu, Alberto Mancini, Paolo Maria Mariano, Ingo Müller, Kumbakonan R. Rajagopal, Jan Jerzy Slawianowski. The book can be a useful tool for Scholars and PhD students addressing their research activity toward basic mathematical and physical problems accruing from the mechanics of materials. * Leading scientific competence of contributors. * Clear writing style linking solutions and open problems. * Suggestions for direct technological applications and new research work. * Mathematical models for nanotechnology devices.