Westerville, Ohio, : American Ceramic Society, c2005

1-280-67444-X

9786613651372

1-118-40708-3

1-118-40712-1

1 online resource (138 p.)

Ceramic transactions ; ; v. 157

DiAntonioC. B (Christopher B.)

Ceramics

Ceramic materials

Sintering

Ceramics - Microstructure

Inglese

"... papers originally presented at the Characterization and Modeling to Control Sintered Ceramic Microstructure and Properties Symposium held during the 106h Annual Meeting of the American Society in Indianapolis, Indiana, April 18-21, 2004"--p. vii.

Includes bibliographical references and indexes.

Characterization and Modeling to Control Sintered Ceramic Microstructures and Properties; Contents; Preface; Characterizing Sintering; Utilizing the Master Sintering Curve to Probe Sintering Mechanisms; Controlled and Predicted Ceramic Sintering Through Master Sintering Curve Theory; Sintering Damage During Multi-Material Sintering; Modeling Sintering; Sintering of Oriented Pore Grain Structures; Finite Element Simulation of Densification and Shape Deformation During Sintering; Application of a Microstructure-Based Model for Sintering and Creep; Microstructure and Properties

Processing and Microstructure Characterization of Transparent Spinel MonolithsParticle Bonding Technology for Composite Materials-Microstructure Control and its Characterization; Evaluation of

Compaction Behavior by Observation of Internal Structure in Granules Compact; Microstructure Characterization and Modeling; Geometry of Microstructural Evolution in Simple Sintering; In situ Observation of Sintering Behavior in Barium Titanate Using an Environmental Scanning Electron Microscope; A Mesoscale Description of Microstructural Evolution for Slip Cast Alumina Sintered at 1350°C

Engineering Ceramic Processes and MicrostructuresCoupled Diffusion Coefficients for Mass Transport of Compounds; Author Index; Keyword Index

These proceedings are designed to provide a forum that integrates research in characterization and modeling to advance the science of ceramic/composite sintering. Densification, shape deformation, and microstructure evolution during sintering is addressed.