Title :
Mathematical Methods for the Rapid Development of New High Performance Thermal Interface Materials
Author :
Paisner, Sara N. ; Fornes, Timothy D. ; Huffman, Nicolas D. ; Gilbert, Kathleen A.
Author_Institution :
LORD Corp., Cary, NC
Abstract :
New developments in the electronics industry have resulted in higher power chips. Unfortunately as these devices run at higher power, they dramatically increase the heat produced. New thermal management materials that exceed the performance of current commercially available greases, gels and adhesives were developed to meet these higher thermal loads. These materials were created using a dense particle packing theory. Rather than use empirical scattershot approaches, this new method uses a mathematical tool to optimize formulations. This theory not only helped produce new thermal materials but also dramatically reduced developmental time.
Keywords :
thermal management (packaging); dense particle packing theory; electronics industry; high performance thermal interface materials; higher power chips; mathematical method; thermal management materials; Conducting materials; Flip chip; Heat sinks; Resistance heating; Surface resistance; Thermal conductivity; Thermal loading; Thermal management; Thermal management of electronics; Thermal resistance; Thermal interface materials; bi-modal filler systems; filler packing;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium, 2008. Semi-Therm 2008. Twenty-fourth Annual IEEE
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4244-2123-7
Electronic_ISBN :
1065-2221
DOI :
10.1109/STHERM.2008.4509372
