Abstract:
The current use of the gelam tree is only found in wood processing. On
the other hand, gelam bark is not optimally utilized so as to produce unused bark
waste even though the natural fiber of gelam bark is of high economic value. The
purpose of this study was to determine the effect of volume variations on the value
of thermal conductivity in gelam fiber wood composite materials with a filler ratio
of each volume variation ratio of 10%, 30%, 50% and 70% using polyester resin
and alkalinizing skin fiber using 5% NaOH in 2 h of immersion time and knowing
the effect ofmicrostructure on gelam bark fiber composites. Based on the results of
the research, the value of thermal conductivity is strongly influenced by variations
in the fraction of different volumes in each sample given 5% alkaline treatment
which increased from a low fiber composition of 10% to 70% fiber composition
from 0,059 W/m°C to 0,107 W/m°C. Composite composition (10% sera - 90%
resin, 30% fiber - 70% resin, 50% fiber - 50% resin and 70% fiber - 90% resin)
with alkalization 5% shows that there is density and density between the matrix
and fiber so that this sample does not have a cavity that inhibits the distribution of
heat flow and faster conduction.