The Hygroscopicity and Strength Properties of Thermally Modified Gigantochloa scortechinii Bamboo from Peninsular Malaysia
2025
Zahidah Zafhian | Adlin Sabrina Muhammad Roseley | Sabiha Salim | Sik Huei Shing | Zairul Amin Rabidin
Bamboo is a lignocellulosic material characterized by its high hygroscopicity, which refers to the ability of material to absorb and retain moisture from the surrounding environment. This attribute could adversely affect its dimensional stability and resistance against deterioration agents. Thus, a study was conducted to investigate the effect of thermal modification on the hygroscopic, mechanical, and chemical properties of three-year-old Gigantochloa scortechinii, a native and highly exploited bamboo species in Malaysia. Overall, heat treatment effectively reduced the equilibrium moisture content and improved the dimensional stability of bamboo, with samples treated at 210 °:C exhibited the most significant moisture resistance of up to 95.6% anti-swelling efficiency (ASE). The heat-treated bamboo exhibited an improvement in modulus of elasticity (MOE) at intermediate temperatures (170&ndash:190 °:C) whereas modulus of rupture (MOR) declined at 210 °:C. Chemical analysis indicated that a significant reduction in hemicellulose content and a relative increase in &alpha:-cellulose and lignin contributed to the improved moisture resistance of heat-treated bamboo. The results demonstrate the viability of heat treatment in producing quality thermally modified bamboo as an alternative raw material for construction materials and furniture manufacturing, thereby contributing to the development of Malaysia&rsquo:s bamboo industry.
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