Handbook of Ceramic Hard Materials
1st Edition
Published on 27. April 2000
Book
Hardback
LXXI, 1020 pages
978-3-527-29972-0 (ISBN)
Description
Corrosion, friction and wear protection are of great importance in researchand development of new engineering materials. Ceramic materials exhibiting an extraordinary hardness are often first choice in applications of high mechanical stress.
In this reference work the different application areas of these hard materials are discussed as well as the chemical and physical basics of these special material properties. The book is of high importance especially for materials scientists and engineers, solid-state chemists and physicists involved in the research and development of new ceramic hard materials and coatings.
In this reference work the different application areas of these hard materials are discussed as well as the chemical and physical basics of these special material properties. The book is of high importance especially for materials scientists and engineers, solid-state chemists and physicists involved in the research and development of new ceramic hard materials and coatings.
More details
Edition
1., Auflage
Language
English
Place of publication
Weinheim
Germany
Target group
College/higher education
Professional and scholarly
Materialwissenschaftler, Festkörperchemiker, Festkörperphysiker, Werkstoffwissenschaftler
Illustrations
1
45 s/w Tabellen, 621 s/w Abbildungen, 1 farbige Abbildung
Illustrations
Dimensions
Height: 24 cm
Width: 17 cm
Thickness: 68 mm
Weight
2486 gr
ISBN-13
978-3-527-29972-0 (9783527299720)
Schweitzer Classification
Content
Solid State Structures
Phase Transitions and Materials Synthesis
Mechanical Properties and Their Relation to Microstructure
Corrosion of Hard Materials
Effective Doping in Novel Carbon Allotropes
Influences on the Hardness of Ceramics
The Hardness of Wolfram Carbide-Cobalt Hardmetals
Directed Metal Oxidation
Synthesis of Boron Based Hard Materials
Self-Propagating High-Temperature Synthesis of Hard Materials
Hydrothermal Synthesis of Diamond
CVD of Diamond
Vapor Phase Deposition of Cubic Boron Nitride Films
Polymer to Ceramic Transformation Process
Nanostructured Superhard Materials
Boron Based Hard Materials
Silicon Carbide Based Hard Materials
Silicon Nitride Based Hard Materials
Ceramics on the Basis of Aluminium Oxide: Increasing the Hardness for Tool Applications
Diamond and Diamond-Like Carbon Materials
Diamond-Like Carbon Films
Data Collection of Properties of Hard Materials
Phase Transitions and Materials Synthesis
Mechanical Properties and Their Relation to Microstructure
Corrosion of Hard Materials
Effective Doping in Novel Carbon Allotropes
Influences on the Hardness of Ceramics
The Hardness of Wolfram Carbide-Cobalt Hardmetals
Directed Metal Oxidation
Synthesis of Boron Based Hard Materials
Self-Propagating High-Temperature Synthesis of Hard Materials
Hydrothermal Synthesis of Diamond
CVD of Diamond
Vapor Phase Deposition of Cubic Boron Nitride Films
Polymer to Ceramic Transformation Process
Nanostructured Superhard Materials
Boron Based Hard Materials
Silicon Carbide Based Hard Materials
Silicon Nitride Based Hard Materials
Ceramics on the Basis of Aluminium Oxide: Increasing the Hardness for Tool Applications
Diamond and Diamond-Like Carbon Materials
Diamond-Like Carbon Films
Data Collection of Properties of Hard Materials