writer：Ke Liu, Xiaozhe Zhang, Hitoshi Takagi, ZhimaoYang, Dong Wang*,
keywords：Polymer–matrix composites (PMCs)，Thermal properties ，Transverse cracking
source：期刊
Issue time：2014年
Present paper investigated the effect of mercerization and silane treatments on the transverse thermal
conduction properties of unidirectional abaca fiber–epoxy composite fabricated by resin transfer molding.
As indicated by FTIR, XRD and SEM, the changes in chemical composition, crystalline and lumen
structure of abaca fibers were introduced by chemical treatments. Transverse tensile test showed that
the weakest linkage of unidirectional composite changed from interface between abaca fiber bundle
and epoxy resin for untreated abaca fiber to interface between elementary fibers treated by mercerization
and silanization. With the increasing of weakest linkages strength and the decreasing of void content, the
transverse thermal conductivity (TCC) of the composite presents increasing trend. The changing of interfaces,
cell wall and lumen derived from chemical treatments are the mainly factors affecting TTC. It was
concluded that the abaca fiber composite with controllable transverse thermal conduction property can
be designed by proper chemical treatment.