Science of Ceramic Chemical Processing
1st Edition
Published on 21. May 1986
Book
Hardback
624 pages
978-0-471-82645-3 (ISBN)
Description
A comprehensive treatment of producing ceramic, glass, and composite materials using chemistry-based processing methods. Synthesizes the most up-to-date research. Includes new areas of computer aided processing, molecular calculations of ceramic processing reactions, and chemical control of surface films. Contributions from over 115 experts in the field. Index.
More details
Language
English
Place of publication
United States
Publishing group
John Wiley & Sons Inc
Target group
College/higher education
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Dimensions
Height: 240 mm
Width: 161 mm
Thickness: 38 mm
Weight
1088 gr
ISBN-13
978-0-471-82645-3 (9780471826453)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Larry L. Hench is the editor of Science of Ceramic Chemical Processing, published by Wiley. Donald R. Ulrich is the editor of Science of Ceramic Chemical Processing, published by Wiley.
Content
Partial table of contents:
Inorganic Colloids for Forming Ultrastructures (R. K. Iler).
Physical-Chemical Factors in Sol-Gel Processes (Z. Zarzycki).
Relationships Between Sol to Gel to Glass Conversions: Structure ofGels During Densification (C. J. Brinker, & et al ).
Use of Drying Control Chemical Additives (DCCAs) in Sol-Gel Process(L. L. Hench).
Kinetics and Mechanisms of Sol-Gel Polymerization (J. Jonas).
NMR, Raman Study of the Effect of Formamide on the Sol-Gel Process(I. Artaki, et al.).
Contribution to the Kinetics of Glass Formation from Solutions (H.Schmidt, et al.).
Applications and Chemistry of Sol-Gel Derived Transparent SilicaAerogels (P. H. Tewari, et al.).
A Model for the Growth of Fractal Silica Polymers (K. D.Keefer).
Sintering of Monolithic Silica Aerogels (M. Prassas, et al.).
Kinetic Processes in Sol--Gel Processing (D. R. Uhlmann, etal.).
Index.
Inorganic Colloids for Forming Ultrastructures (R. K. Iler).
Physical-Chemical Factors in Sol-Gel Processes (Z. Zarzycki).
Relationships Between Sol to Gel to Glass Conversions: Structure ofGels During Densification (C. J. Brinker, & et al ).
Use of Drying Control Chemical Additives (DCCAs) in Sol-Gel Process(L. L. Hench).
Kinetics and Mechanisms of Sol-Gel Polymerization (J. Jonas).
NMR, Raman Study of the Effect of Formamide on the Sol-Gel Process(I. Artaki, et al.).
Contribution to the Kinetics of Glass Formation from Solutions (H.Schmidt, et al.).
Applications and Chemistry of Sol-Gel Derived Transparent SilicaAerogels (P. H. Tewari, et al.).
A Model for the Growth of Fractal Silica Polymers (K. D.Keefer).
Sintering of Monolithic Silica Aerogels (M. Prassas, et al.).
Kinetic Processes in Sol--Gel Processing (D. R. Uhlmann, etal.).
Index.