Songklanakarin Journal of Science and Technology (SJST) (May 2003)
Effect of moisture content on some physical and mechanical properties of juvenile rubberwood (Hevea brasiliensis Muell. Arg.)
Abstract
Moisture content of rubberwood is an important factor influencing its physical and mechanical behaviours. This research aimed at quantifying effect of moisture content on physical and mechanical properties of juvenile rubberwood core. The specimens at various moisture contents were tested in compression and shear parallel to grain. Information was gathered to determine shrinkage, density and specific gravity of specimens. The equilibrium moisture content determined from desorption experiment, was well described by the Hailwood-Horrobin solution theory. Moisture content of 23+4% best represented the value of apparent fiber saturation point, Mp, determined from physical and mechanical properties data. Above Mp, values of all physical and mechanical properties examined were fairly constant. Maximum volumetric shrinkage from moisture content above Mp to an oven-dry condition was 8.2+1.8%. Specific gravity and density were 0.55+0.03 and 614+30 kg/m3 at 12% moisture content. Below Mp, ultimate compressive stress (UCS) parallel to grain, ultimate shear stress parallel to grain, modulus of elasticity (MOE) for compression parallel to grain, and shear modulus parallel to grain increased exponentially with decreasing moisture content. Shear strain at fracture and work to fracture of shear parallel to grain were found to increase as moisture content decreased below Mp and attained the maximum values at 20% and 12% moisture content, respectively. The values decreased with further lowering of the level of moisture content. Ultimate compressive stress (UCS) parallel to grain was closely correlated with specific gravity and was more sensitive to changes in moisture content at higher specific gravity level.
