Die-Attach Materials for High Temperature Applications in Microelectronics Packaging (e-bog) af -
Siow, Kim S. (redaktør)

Die-Attach Materials for High Temperature Applications in Microelectronics Packaging e-bog

1313,81 DKK (inkl. moms 1642,26 DKK)
This book presents the scientific principles, processing conditions, probable failure mechanisms, and a description of reliability performance and equipment required for implementing high-temperature and lead-free die attach materials. In particular, it addresses the use of solder alloys, silver and copper sintering, and transient liquid-phase sintering. While different solder alloys have been ...
E-bog 1313,81 DKK
Forfattere Siow, Kim S. (redaktør)
Forlag Springer
Udgivet 29 januar 2019
Genrer Materials science
Sprog English
Format epub
Beskyttelse LCP
ISBN 9783319992563
This book presents the scientific principles, processing conditions, probable failure mechanisms, and a description of reliability performance and equipment required for implementing high-temperature and lead-free die attach materials. In particular, it addresses the use of solder alloys, silver and copper sintering, and transient liquid-phase sintering. While different solder alloys have been used widely in the microelectronics industry, the implementation of sintering silver and transient liquid-phase sintering remains limited to a handful of companies. Hence, the book devotes many chapters to sintering technologies, while simultaneously providing only a cursory coverage of the more widespread techniques employing solder alloys.Addresses the differences between sintering and soldering (the current die-attach technologies), thereby comprehensively addressing principles, methods, and performance of these high-temperature die-attach materials;Emphasizes the industrial perspective, with chapters written by engineers who have hands-on experience using these technologies; Baker Hughes, Bosch and ON Semiconductor, are represented as well as materials suppliers such as Indium;Simultaneously provides the detailed science underlying these technologies by leading academic researchers in the field.