|  | Riedel, Ralf / Chen, I-Wei (Hrsg.)
Ceramics Science and Technology
Volume 1: Structures
 1. Auflage Februar 2008
259,- Euro*
2008. XX, 592 Seiten, Hardcover
262 Abb. (51 Farbabb.), 37 Tab.
- Handbuch/Nachschlagewerk -
ISBN 978-3-527-31155-2 - Wiley-VCH, Weinheim
Preis inkl. Mehrwertsteuer zzgl. Versandkosten.
* Serienpreis auf Anfrage bei service@wiley-vch.de |
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| Kurzbeschreibung
Ceramics have progressed from ancient bulk materials in pottery, construction, and decoration to a multitude of modern applications requiring thermal and chemical stability, durability and resistance to wear in environments and conditions under which other material classes cannot serve adequately. Ceramics Science and Technology illuminates this exciting material class from all sides for a wide audience ranging from materials scientists and engineers to chemists, biochemists, physicists and medical researchers.
Aus dem Inhalt
Preface
PART I: Introduction
MODERN TRENDS IN ADVANCED CERAMICS
Advanced Ceramics
Conventional Synthesis and Processing of Advanced Ceramics
Molecular Routes for the Synthesis and Processing of Advanced Ceramics
Methods for Characterization of Advanced Ceramic Materials
Applications of Advanced Ceramics
Outlook
PART II: Structure of Ceramic Materials: Atomic Level
MODELING AMORPHOUS CERAMIC STRUCTURES
Introduction
Computational Approach
Results
Summary and Conclusions
STRUCTURAL CHEMISTRY OF CERAMICS
Introduction
Crystal Chemistry of Binary Oxides
Complex Oxide Structures
Nitrides and Related Materials
DIFFUSION IN CERAMICS
General Introduction
Simple Oxides
Diffusion in Complex Oxides
Diffusion in Non-Oxide Ceramics
STRUCTURES OF CERAMIC MATERIALS: THERMODYNAMICS AND CONSTITUTION
Introduction
Experimental Phase Studies
Methods of Computational Thermodynamics
Case Studies
PART III: Structures of Ceramic Materials: Microstructural Level
MICROSTRUCTURAL DESIGN OF CERAMICS: THEORY AND EXPERIMENT
Overview
An Introduction to Ceramics
Determinants of Ceramic Microstructure
Factors in Microstructural Design
Amorphous Phases in Ceramics
Silicon Nitride Ceramics: A Model System
Theory and Modeling of Ceramics
A Case Study in Theory and Modeling: Intergranular Films in Silicon Nitride
Outlook
MESOSCOPIC CERAMIC STRUCTURES IN ONE, TWO, AND THREE DIMENSIONS
Ceramics at the Mesoscale
Synthetic Routes to Mesoscaled Ceramic Structures
One-Dimensional (1-D) Ceramic Structures
Two-Dimensional (2-D) Ceramic Structures
Three-Dimensional (3-D) Ceramic Structures
BULK CERAMIC NANOSTRUCTURES
Introduction
Materials and Related Nanocomposites
Formation of Nanoinclusions
Materials Preparation
Properties of Ceramic Nanocomposites
High-Temperature Properties
Electrical Properties
GLASS CERAMICS: SILICA- AND ALUMINA-BASED
Introduction
Theory of Nucleation and Crystal Growth
Glass Ceramics with Low Thermal Expansion Coefficients
Glass Ceramics for Mechanical Applications
Bioglass Ceramics
Oriented Glass Ceramics
Nano Glass Ceramics
CELLULAR STRUCTURES
Introduction
Structure
Properties
Fabrication Methods
Applications
Summary
CERAMIC THIN FILMS
Introduction
Fundamentals of the Chemical Solution Deposition Process
Structure-Property Relationships
The Application of CSD-Derived Ceramic Films
Conclusions
MULTIPHASE FIBER COMPOSITES
Introductory Remarks
Fibers for Ceramic Composites
Processes to Fabricate Ceramic Fiber Composites
Non-Brittle Composites and Associated Mechanisms
Properties of Ceramic Fiber Composites
Applications of Ceramic Fiber Composites
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