Title :
Joining characteristics of various high temperature lead-free interconnection materials
Author :
Suganuma, K. ; Kim, K.S. ; Kim, S.S. ; Kim, D.S. ; Kang, M. ; Kim, S.J.
Author_Institution :
ISIR, Osaka Univ., Ibaraki
Abstract :
The degradation mechanism of the interface between Agepoxy conductive adhesives (CAs) and Sn plating under a humid condition was examined. As the results of TEM analyses, two different types of oxide layers, SnO and SnO2 phases, were found to be formed at the interface. These Snoxides at the interface is the root cause of the interfacial degradation. A pendulum impact testing system was proposed as the standard method of the CAs joint evaluation. The potential of newly-designed Zn-Sn alloys as high temperature lead-free solders was also evaluated, with particular focus on the interface stability. Zn-Sn alloys can maintain interconnection between a Si die and a DBC substrates coated with Au/TiN thin layer until 2000 cycles of thermal cycling test (-40degC~125degC). Zn-Sn possesses a great potential as lead-free high temperature solder alternatives.
Keywords :
adhesives; conducting polymers; electroplating; humidity; impact testing; interconnections; interface phenomena; silver; soldering; tin alloys; transmission electron microscopy; zinc alloys; Ag; TEM analyses; ZnSn; die; humid condition; interface stability; interfacial degradation; lead-free interconnection materials; oxide layers; pendulum impact testing system; plating; silver-epoxy conductive adhesives; solder; thermal cycling test; Conducting materials; Conductive adhesives; Content addressable storage; Degradation; Environmentally friendly manufacturing techniques; Joining materials; Lead; System testing; Temperature; Tin;
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.2009.5074255
