导电胶粘剂的基础研究

Proceedings. The First IEEE International Symposium on Polymeric Electronics Packaging, PEP '97 (Cat. No.97TH8268) Pub Date : 1997-10-26 DOI:10.1109/PEP.1997.656477

C. Wong, D. Lu, L. Meyers, S. Vona, Q. Tong

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引用次数: 46

摘要

研究了三种导电胶粘剂(ag填充环氧树脂、ag填充氰酸酯和ni填充环氧树脂)在85/spl℃/85%RH老化过程中体积电阻率的变化。两种填充ag的ECAs的体积电阻率在时效初期略有下降，之后趋于稳定。然而，填充镍的环氧树脂的体积电阻率显著提高。在专门设计的试验车上，研究了不同金属(Ag、Cu和Sn)的导电胶粘剂接头电阻的变化。在85/spl℃/85%RH的1000小时时效过程中，Ag和Cu丝填充的Ag环氧树脂的接头电阻没有明显增加。但随着锡线的加入，接头电阻急剧增加。填充Ag的氰酸酯ECA与所有金属丝的连接电阻均有所增加，其中Ag和Cu丝的连接电阻略有增加，而Sn丝的连接电阻则明显增加。镀银线和镀铜线均显著提高了ni填充环氧树脂的接头电阻。研究了导电胶粘剂ECA及其银片的导电性能。人们发现，在加热的情况下，在一定的温度以上可以实现导电。银片在比ECA更高的温度下实现了导电。研究了固化温度对ECA电阻率和收缩率的影响。在较高温度下固化的样品表现出较高的收缩率和较低的电阻率。

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Fundamental study of electrically conductive adhesives (ECAs)

Variations of volume resistivity of three electrically conductive adhesives (Ag-filled epoxy, Ag-filled cyanate ester, and Ni-filled epoxy) during 85/spl deg/C/85%RH aging were studied. Volume resistivity of the two Ag-filled ECAs decreased slightly at the beginning of aging and then remained stable. However, the volume resistivity of the Ni-filled epoxy increased substantially. Joint resistance variations of these conductive adhesives with different metals (Ag, Cu, and Sn) were also studied by using a specially designed test vehicle. The Ag-filled epoxy with Ag and Cu wires did not show appreciable joint resistance increase during 1000-hour 85/spl deg/C/85%RH aging. However, dramatic joint resistance increase with Sn wire was observed. The joint resistance of the Ag-filled cyanate ester ECA with all the metal wires increased, slightly with Ag and Cu wires and more dramatically with Sn wire. The Ni-filled epoxy showed significant joint resistance increase with both Ag and Cu wires. The electrical conductivity development of an ECA and the Ag flake used in this adhesive was studied. It was found that under heating, electrical conduction was achieved above certain temperatures. The Ag flake achieved electrical conduction at higher temperature than the ECA. The effect of curing temperature on ECA resistivity and shrinkage was investigated. Samples cured at higher temperatures exhibited higher shrinkage and lower resistivity.

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Proceedings. The First IEEE International Symposium on Polymeric Electronics Packaging, PEP '97 (Cat. No.97TH8268)

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