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Thermal analysis of polymeric materials

"Thermal Analysis of Polymeric Materials" systematically treats macroscopic measurements by thermal analysis and the quantitative link to microscopic, molecular structure and mobility. Reversible and irreversible thermodynamics, kinetics, quantum mechanics, and statistical thermodynamics are the roots of the described thermal analysis. The book aims to broaden readers’ understanding of materials and the connection of flexible macromolecules (polymers) to small molecules and rigid macromolecules (minerals, salts, and metals). An effort is made to discover how the long, flexible molecules fit into their small phases which are characterized as microphases or nanophases. Their order ranges from amorphous to mesophase-like and crystalline. Ultimately, it is shown that the basic structure-property-processing triangle is connected to the better-known types of molecules and their common macroscopic phases.

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Modeling of Soft Matter

Soft matter plays a role in a wide variety of important processes and application. For example, gel swelling and dynamics are an essential part of many biological and individual processes, such as motility mechanisms in bacteria and the transport and absorption of drugs. Ferroelectrics, liquid crystals, and elastomers are being used to design ever faster switching devices. Experimental studies, such as scattering, optical and electron microscopy, have provided a great deal of detailed information on structures. But the integration of mathematical modeling and analysis with experimental approaches promises to greatly increase our understanding of structure-property relationships and constitutive equations. The workshop on Modeling of Soft Matter has taken such an integrated approach.

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Ceramic and Glass Materials : Structure, Properties and Processing

Ceramic and Glass Materials: Structure, Properties and Processing is a concise and comprehensive guide to the key ceramic and glass materials used in modern technology. Each chapter focuses on the structure-property relationships for these important materials and expands the reader’s understanding of their nature by simultaneously discussing the technology of their processing methods. In each case, the resulting understanding of the contemporary applications of the materials provides insights as to their future roles in twenty first century engineering and technology. Organized to be a practical and comprehensive resource, each chapter is dedicated to a specific material such as: alumina, mullite, sillimanite minerals, aluminates, quartz and silicas, refractory oxides, clays, concrete and cement, lead compounds, and zirconia.

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Biomaterials : An Introduction

Biomaterials, an Introduction is intended as a general introduction to the uses of artificial materials in the human body for the purposes of aiding healing, correcting deformities, and restoring lost function. Enhancing on the field developments since the successful last edition, Biomaterials, an Introduction continues in its tradition as an outgrowth of an undergraduate course for senior students in biomedical engineering developed by the authors With 60 years of combined experience, the authors have emphasized the fundamental materials science, structure-property relationships and biological responses as a foundation for a wide array of biomaterials applications.

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