EQUILIBRIUM MOISTURE CONTENT AND VOLUMETRIC CHANGES OF <em>GIGANTOCHLOA</em> <em>SCORTECHINII</em>

Abstract

HAMDAN, H., HILL, C. A. S., ZAIDON, A., ANWAR, U. M. K. & ABD. LATIF, M. 2007. Equilibrium moisture
content and volumetric changes of Gigantochloa scortechinii. Relative humidity (RH) is known to affect the
moisture content (MC) of bamboo but to date, only the maximum shrinkages at the tangential and radial
directions were commonly determined. For bamboo to be glue-laminated and used as building components,
the hygroscopicity of bamboo split and strip, and its effects on the shrinkage/swelling behaviour in relative
humidities between 12 and 93% were studied. The equilibrium moisture content (EMC) and dimensional
changes of Gigantochloa scortechinii (buluh semantan) were determined with the fibre saturation point (FSP)
obtained by extrapolation. Experimental EMC values obtained at various levels of RH showed little variation
between bamboo split and strip. However the degree of volumetric shrinkage and swelling changes varied
between the variables studied. In transverse section, the bamboo strip is relatively stable in shrinkage at
lower relative humidity, although during adsorption the volumetric swelling is high. The mean FSP for
G. scortechinii was 24.28%. This study showed that the readiness of bamboo to dimensional changes below
FSP was of prime concern. By understanding the hygroscopic characteristics and behaviour of G. scortechinii,
users would be able to understand the limitations of the material and find alternatives to prevent these
changes before it could be used as building components.