Author: Antonios Zavaliangos
Publisher: IOS Press
Published: 2001
Total Pages: 298
ISBN-13: 9781586030940
DOWNLOAD EBOOK →This book contains 25 papers from the NATO Advanced Research Workshop on Recent Advances of Computer Modeling of Powder Metallurgy Processes. The papers address cold compaction, sintering, high-temperature compaction, processing modeling, and processes and materials. The integration of mechanical and physical aspects of P/M processes is emphasized. Contributors include researchers from Europe, the United States, Korea, and Japan. Author index only. c. Book News Inc
Author: Lydon N. Smith
Publisher: John Wiley & Sons
Published: 2003-04-18
Total Pages: 200
ISBN-13:
DOWNLOAD EBOOK →&Quot;The rapid developments in expert systems in recent years have enabled accumulated experience and knowledge to be applied in the powder metallurgy field. This calls for careful modelling of the processes together with sound appreciation of both powder metallurgy and knowledge-based systems. A Knowledge-based System for Powder Metallurgy Technology introduces the reader to both fields in the early chapters and then illustrates the advantages of the use of expert systems in this significant manufacturing process."--BOOK JACKET.
Author: William B. Eisen
Publisher:
Published: 2001
Total Pages: 104
ISBN-13: 9781878954824
DOWNLOAD EBOOK →Author: Randall M. German
Publisher: John Wiley & Sons
Published: 2008-09-09
Total Pages: 468
ISBN-13: 0470173645
DOWNLOAD EBOOK →The only handbook of mathematical relations with a focus on particulate materials processing The National Science Foundation estimates that over 35% of materials-related funding is now directed toward modeling. In part, this reflects the increased knowledge and the high cost of experimental work. However, currently there is no organized reference book to help the particulate materials community with sorting out various relations. This book fills that important need, providing readers with a quick-reference handbook for easy consultation. This one-of-a-kind handbook gives readers the relevant mathematical relations needed to model behavior, generate computer simulations, analyze experiment data, and quantify physical and chemical phenomena commonly found in particulate materials processing. It goes beyond the traditional barriers of only one material class by covering the major areas in ceramics, cemented carbides, powder metallurgy, and particulate materials. In many cases, the governing equations are the same but the terms are material-specific. To rise above these differences, the authors have assembled the basic mathematics around the following topical structure: Powder technology relations, such as those encountered in atomization, milling, powder production, powder characterization, mixing, particle packing, and powder testing Powder processing, such as uniaxial compaction, injection molding, slurry and paste shaping techniques, polymer pyrolysis, sintering, hot isostatic pressing, and forging, with accompanying relations associated with microstructure development and microstructure coarsening Finishing operations, such as surface treatments, heat treatments, microstructure analysis, material testing, data analysis, and structure-property relations Handbook of Mathematical Relations in Particulate Materials Processing is suited for quick reference with stand-alone definitions, making it the perfect complement to existing resources used by academic researchers, corporate product and process developers, and various scientists, engineers, and technicians working in materials processing.
Author: Peter R. Brewin
Publisher: Springer Science & Business Media
Published: 2007-09-26
Total Pages: 341
ISBN-13: 1846280990
DOWNLOAD EBOOK →Manufacture of components from powders frequently requires a compaction step. Modelling of Powder Die Compaction presents a number of case studies that have been developed to test compaction models. It will be bought by researchers involved in developing models of powder compaction as well as by those working in industry, either using powder compaction to make products or using products made by powder compaction.