Abstract
The aims of this work were to determine the color change and physical–mechanical properties of polystyrene glulam from three tropical wood species. Wood laminas were cut from logs harvested from a young plantation forest of manii (Maesopsis eminii), mangium (Acacia mangium), and rubber-wood (Hevea brasiliensis). The laminas were impregnated with monomer styrene that was polymerized using potassium peroxy-disulfate as a catalyst and heat. Three-layer glulam was constructed from the polystyrene laminas, using isocyanate glue and cold press. For comparison purposes, three-layer untreated glulam and solid wood samples were prepared. The results showed that the color change of polystyrene glulam was very small compared with untreated glulam. Polystyrene glulam had the highest density, while the density of untreated glulam did not differ from that of the solid wood. The moisture content of all products was matched to the environment, and fulfilled the Japanese standard. Compared with both types of glulams, solid wood had lower values for modulus of rupture (MOR), modulus of elasticity (MOE), and hardness, but higher shear strength. Meanwhile, polystyrene glulam had lower values for MOR and MOE, equal shear strength and wood failure, and higher hardness than the untreated glulam. All glulams had very little delamination in the hot water test. Only rubber-wood glulams fulfilled JAS 234-2003 for MOR, MOE, shear strength, and delamination. To obtain adequate physical–mechanical properties of glulams, medium-density wood is recommended for glulam manufacturing.
Highlights
Forest Products Department, IPB University (Bogor Agricultural University), Kampus IPB Darmaga, Forest Products Research and Development Centre, Jalan Gunung Batu, Bogor 16610, Indonesia; Abstract: The aims of this work were to determine the color change and physical–mechanical properties of polystyrene glulam from three tropical wood species
Other researchers found that the density and shear strength of glulams constructed from pine (Pinus merkusii), jabon (Anthocephalus cadamba), and sengon (Falcataria moluccana) with mahogany (Swietenia sp.) tannin adhesive were not different from those of solid wood
Lestari et al [6] made glulam from pine and jabon wood and isocyanate glue, and the results showed that the mechanical properties of the glulam in terms of modulus of elasticity (MOE), modulus of rupture (MOR), and shear strength were higher than those of solid wood from each species; the glulam matched the Japanese Agricultural Standard (JAS) 234-2003 requirements for MOR and shear strength only
Summary
In Indonesia, the supply of logs to the wood industry reached 58 million m3 in 2019, and about 85% of the supply was from plantation forests [1]. Other researchers found that the density and shear strength of glulams constructed from pine (Pinus merkusii), jabon (Anthocephalus cadamba), and sengon (Falcataria moluccana) with mahogany (Swietenia sp.) tannin adhesive were not different from those of solid wood. Since it has a high density, pine glulam could fulfill the modulus of rupture (MOR) and modulus of elasticity (MOE) requirements of JAS 234-2003 [5]. The above results show that small-diameter logs can be used to manufacture glulam with larger dimensions and better physical–mechanical properties than untreated timber. The aims of this work were to determine the color changes and physical–mechanical properties of polystyrene glulam constructed from three tropical wood species, including manii, mangium, and rubber-wood
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