Editor’s Note: This is the 2nd of a two-part summary from SEMI-THERM 33. Click here for Part 1. SEMI-THERM 33 concluded last week at Silicon Valley, CA and Electronics Cooling was the only media and content provider present on the exhibit floor. We take this opportunity to thank our readers and contributors who stopped by our booth to learn about our plans for this year … [Read more...]
Recent Research in TIMs
Please find below some recent research in Thermal Interface Materials (TIMs). Low melting alloy composites as thermal interface materials with low thermal resistance Haoran Wen, Yaqiang Ji Kai Zhang, Matthew M.F. Yuen, S.W. Ricky Lee, Xian-Zhu Fu, Rong Sun & Ching-Ping Wong Low melting alloy is mixed with Cu filler as thermal interface materials. The thermal … [Read more...]
SEMI-THERM 33 2017 Exhibits Highlights – Part 1
SEMI-THERM 33 concluded last week at Silicon Valley, CA and Electronics Cooling was the only media and content provider present on the exhibit floor. We take this opportunity to thank our readers and contributors who stopped by our booth to learn about our plans for this year including 2017 Thermal Live! We are so pleased to know that many of you like our content, our new … [Read more...]
Low Cost Plastic Films Lower Exposed Surface Temperatures by 10°C
Low-emissivity (Low-E) films are not new –they represent a mature technology in which a metal-oxide coated surface emits low levels of radiant thermal energy. Low-E films are widely used on window glasses in energy-efficient buildings. Low-E materials include metals like Aluminum foil which has a thermal emissivity /absorptance of 0.03 which means that it reflects 97 percent of … [Read more...]
Cooling Circuits with Nanochimneys in Carbon Nanotubes
The extraordinary properties of Graphene are well known, and in the context of electronics thermal management and reliability, it is about 200 times stronger than the strongest steel and conducts heat and electricity very efficiently. Both graphene and carbon nanotubes consist of six-atom rings, which create the well-known hexagonal Honeycomb structure, and both excel at the … [Read more...]
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