Title :
New nano size filled TIM material with high thermally conductive properties
Author :
Moscicki, A. ; Falat, T. ; Kinart, A. ; Smolarek, A. ; Merten, E.
Author_Institution :
Amepox Microelectron., Ltd., Łódź, Poland
Abstract :
One of the largest problems connected with actual electronic and microelectronics systems is removing of heat generated by them, particularly through the power elements. The most so far widespread technical solutions in the range of high thermally conductive layers (Thermal Interface Materials - TIM), are compositions on the base of organic adhesives including as a fillers the particle of silver in the powder or flake shapes with the reason that it is material with very high thermal conductivity (ov. 420 W/mK). The compositions of this type are mostly thermally curing or sintering. Unfortunately this solution contain organic resins, what give the big limits the final value of the thermal conductive coefficient in the large degree, and also limits the maximum range of applying materials.
Keywords :
curing; resins; sintering; thermal conductivity; Ag; curing; electronic systems; fillers; flake shapes; high thermally conductive properties; microelectronics systems; nanosize filled TIM material; organic adhesives; organic resins; powder shapes; sintering; thermal interface materials; Conductivity; Electronic packaging thermal management; Materials; Nanoparticles; Silver; Temperature measurement; Thermal conductivity;
Conference_Titel :
Electronics Packaging Technology Conference (EPTC), 2014 IEEE 16th
Conference_Location :
Singapore
DOI :
10.1109/EPTC.2014.7028361
