Title :
Epoxy/h-BN composites for thermally conductive underfill material
Author :
Liang, Qizhen ; Xiu, Yonghao ; Lin, Wei ; Moon, Kyoung-Sik ; Wong, C.P.
Author_Institution :
Sch. of Polymer, Textile & Fiber Eng., Georgia Inst. of Technol., Atlanta, GA
Abstract :
In order to enhance thermal conductivity of underfill materials, hexagonal boron nitride (h-BN) was employed as a thermally conductive filler. The relationship between the filler morphology and its effects on the thermal conductivity is focused in this study. Two different h-BN fillers with different morphologies were applied to generate an efficient thermal transport path through the filler and epoxy resin interfaces. The microstructure, dynamic mechanical properties and thermal conductivity for the h-BN filled underfills were studied and characterized. The h-BN greatly increased the thermal conductivity of the underfill and their moduli were well controlled by an addition of a low filler level which can reduce the thermal stress in flip-chip packaging application.
Keywords :
boron compounds; composite materials; crystal microstructure; electronics packaging; filled polymers; thermal conductivity; BN; Conductive hexagonal boron nitride; epoxy resin interface; epoxy-h-BN composites; flip-chip packaging application; microstructure; thermal conductivity; thermal stress; thermal transport path; thermally conductive underfill material; Boron; Composite materials; Conducting materials; Epoxy resins; Mechanical factors; Microstructure; Morphology; Stress control; Thermal conductivity; Thermal stresses; composite; flip chip underfill; hexagonal boron nitride; thermal conductivity;
Conference_Titel :
Electronic Components and Technology Conference, 2009. ECTC 2009. 59th
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4244-4475-5
Electronic_ISBN :
0569-5503
DOI :
10.1109/ECTC.2009.5074050
