Title :
Microstructural control of electrically conductive adhesives with Ag micro-fillers by binder chemistry
Author :
Inoue, M. ; Tada, Yasunori ; Muta, Hidemasa ; Yamanaka, S.
Author_Institution :
Adv. Sci. Res. Leaders Dev. Unit, Gunma Univ., Kiryu, Japan
Abstract :
Variations in the electrical resistivity and microstructural evolution in epoxy-based adhesives containing Ag micro-fillers (flakes and micro-particles) were investigated during curing and post-annealing. Sintering of micro-fillers was successfully induced in the adhesive binders, although the sintering behavior varied depending on the matrix chemistry. The electrical resistivity of the adhesives was markedly reduced as a result of filler sintering. When we used some polymer alloy binders, such as poly-urethane based binder, ultra high conductivity (below 10 μΩcm) was achieved by curing at 150°C Thus, binder chemistry is one of the important factors for design of electrically conductive adhesive materials.
Keywords :
adhesive bonding; annealing; conductive adhesives; curing; electrical resistivity; polymer blends; silver; sintering; Ag; adhesive binders; binder chemistry; curing; electrical resistivity; electrically conductive adhesives; epoxy-based adhesives; filler sintering; microstructural control; poly-urethane based binder; polymer alloy binders; post-annealing; silver flakes; silver microfillers; silver microparticles; temperature 150 degC; Chemistry; Conductive adhesives; Conductivity; Curing; Loading; Polymers; Resistance; binder chemistry; electrical resistivity; electrically conductive adhesives; insert; microstructural evolution;
Conference_Titel :
CPMT Symposium Japan (ICSJ), 2013 IEEE 3rd
Conference_Location :
Kyoto
Print_ISBN :
978-1-4799-2718-0
DOI :
10.1109/ICSJ.2013.6756122
