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Informationen zum Autor David E. Clark is the editor of Microwave Solutions for Ceramic Engineers, published by Wiley. Diane C. Folz is the editor of Microwave Solutions for Ceramic Engineers, published by Wiley. Klappentext This book is a summary of microwave processing research, processing and characterization tools, and applications specifically applicable to ceramic engineers. It will serve as an update/summary of research related to microwave processing of ceramic materials and as an introductory book to those wishing to initiate microwave studies or who wish to determine the potential applications in their area of expertise. Zusammenfassung This book is a summary of microwave processing research! processing and characterization tools! and applications specifically applicable to ceramic engineers. Inhaltsverzeichnis Introduction: What is Microwave Processing? (D.E. Clark and D.C. Folz). THE BASICS. Microwave Processing of Ceramic Materials (W.H. Sutton). Principles of Industrial Microwave and RF Heating (R.F. Schiffmann). Fundamental Interaction Mechanisms Between Microwaves and Matter (R.E. Newnham, S.J. Jang, M. Xu, and F. Jones). Microwave Material Interactions and Process Design Modeling (W.R. Tinga). Modeling of Multi-Frequency Microwave Sintering of ZnO Ceramic (A. Birman, B. Levush, Y. Carmel, D. Gershon, D. Dadon, L.P. Martin and M. Rosen). Equipment Safety for Microwave and Radio Frequency Processing of Ceramics (J.F. Gerling). Fundamentals and Application of Dielectric Heating Technologies for Materials Processing: A Review (J.W. Cresko). PUTTING IT INTO PRACTICE Microwave Drying of Electrical Porcelain: A Feasibility Study (W.A. Hendrix and T. Martin). Microwave Energy Versus Convected Hot Air for Rapidly Drying Ceramic Tile (D.A. Earl, D.E. Clark, and R.L. Schulz). Microwave Sintering Kilogram Batches of Silicon Nitride (P.A. Apte and W.D. MacDonald). Sintering of Traditional Ceramics By Microwaves (84 GHz and 2.45 GHz) (S. Takayama, M. Mizuno, S. Obata, T. Shimada, K. Satake, M. Sato, T. Mutoh, T. Shimotuma, S. Ito, K. Ida, T. Inoue, K. Esaki, O. Motojima and M. Fujiwara). Microwave Plasma Sintering of Alumina (M.P. Sweeney and D.L. Johnson). Microwave Processing of Ceramics, Composites and Metallic Materials (D. Agrawal, J. Cheng, Y. Fang and R. Roy). Microwave Plasma Synthesis of Nanoparticles: Application of Microwave to Produce New Materials (D.V. Szabo, D. Vollath and W. Arnold). Hybrid Microwave Firing of Heavy Clay Products (G.V.A. Tayler, M. Anderson and M. Hamlyn). Annealing and Self-Healing of Microwaved Ceramics (M.S. Morrow, D.E. Schnechter, P.A. Eggleston, H.E. Huey and Q.S. Wang). Enhancement of Cutting Performance of Cemented Carbide Cutting Tools (Microwave Treatment by S. Aravindan, J. Ramkumar, S.K. Malhotra and R. Krishnamurthy). Microwave Heating of Glass (U. Kolberg and H. Roemer). Surface Modification of Sodium Aluminosilicate Glasses Using Microwave Energy (Z. Fathi, I. Ahmad, J.H. Simmons, D.E. Clark and A.R. Lodding). Microwave Crystallization of Glass (A. Boonyapiwat, D.C. Folz and D.E. Clark). Microwave Joining of Engineering Ceramics (J.G.P. Binner, P.A. Davis, T.E. Cross and J.A. Fernie). Auto Ignition Synthesis and Microwave Sintering of Nanocrystalline Ceramics (S.B. Bhaduri, W.R. Tinga, J.G. Huang, E.H. Zhou and S. Bhaduri). THE TOOLS Designing Industrial Microwave Heating Systems for Safe Operation: Batch Ovens (R.F. Schiffmann). A Technical Review of Equipment and Methods for Waveguide Power Measurement in Microwave Heating Applications (J.F. Gerling). Sintering of Ceramics Using Low-Fre...
