Abstract
This study was carried to investigate changes in the oil heat treated 18-years old of planted Acacia mangium. Harvested trees segregated into bottom, middle and top portions containing heartwood and sapwood were oil heat treated in stainless tank with palm crude oil as heating medium at temperatures of 180oC, 200oC and 220oC for 30, 60 and 90 minutes respectively. The evaluation of the changes in the wood were performed by standards using a Minolta Chroma Meter, TAPPI Standard T204 om-88, TAPPI Standard T203 cm-99, TAPPI Standard T222 cm-02, and BS EN 310:1993 static bending tests. The relationship between the changes in the colour, mechanical and chemical composition, were made using correlation analysis. The result showed oil-heat treatment reduced the lightness of the wood and darkened the both parts of the wood. The strength of the wood reduced slightly after the oil-heat treatment. In the chemical compositions, the percentages of the holocellulose, α-cellulose, hemicellulose and extractive contents decrease with the increase in treatment duration and temperature. The oil heat treatment process at 200°C for duration 60 minutes is recommended for acacia mangium wood as it improved the colour of Acacia mangium and standardized the colour of sapwood and heartwood. The loss in strength at this temperature and duration is acceptable as the treated wood only loss up to 15% strength in MOR and 10.7% in MOE.
Highlights
Acacia mangium a fast-grown timber species is an important for large scale forest plantation in Malaysia
The oil heat treatment process enhanced the colour of sapwood to match the heartwood of 18-year old Acacia mangium
The Modulus of Rupture (MOR) and Modulus of Elasticity (MOE) of A. mangium wood decreased after treatment
Summary
Acacia mangium a fast-grown timber species is an important for large scale forest plantation in Malaysia. This fast-growing species has some disadvantages such as it has high proportion of juvenile wood, poorly developed heartwood and fast rate of growth that resulted in wide growth rings which eventually will lower the density of wood dropped the dimensional stability and readily attacked by biological deterioration agent (Tuong & Li, 2010). Heat treatment is one of the wood modification processes that are environmental-friendly as it does not use chemicals (Razak et al, 2012; Izyan et al, 2010). The A. mangium an exotic timber species to Malaysia was chosen for this study
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