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An Evaluation of the Physicochemical, Structural and Morphological Properties of Selected Tropical Wood Species for Possible Utilization in the Wood Industry

An Evaluation of the Physicochemical, Structural and Morphological Properties of Selected Tropical Wood Species for Possible Utilization in the Wood Industry
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摘要 This work investigated and quantified the physicochemical, structural and morphological properties of four (4) tropical timbers as precursor raw materials for possible utilization in the wood plastic industry. The physicochemical properties of the wood samples such as the bulk and tapped density, moisture content, water absorption capacity at 25°C, volatile content, fixed carbon, ash content, alpha cellulose, hemicellulose, lignin, and extractives contents were determined using standard methods like the European Committee for Standardization and (CEN/TS) and the American Society for Testing Materials (ASTM) standards. The structural and morphological properties of the samples were examined with Fourier Infrared Transform (FTIR) spectroscopy and scanning electron microscope (SEM). Results indicated that the bulk density values of the timbers ranged from 0.34 g/cm<sup>3</sup> in Brachystegia eurycoma (W<sub>3</sub>) to 0.47 g/cm<sup>3</sup> in Erythrophleum suaveolens (W<sub>2</sub>), with the other timbers, Nuclea diderichii (W<sub>1</sub>) and Prosopis africana (W<sub>4</sub>) having the same bulk density of 0.40 g/cm<sup>3</sup>. With respect to their moisture content, W<sub>2</sub> had the highest value (8.38%) while Nauclea diderrichii had the lowest value (6.52%). The water absorption capacities of the woods studied correlated with the cellulose composition of wood in the order of: W<sub>3</sub> > W<sub>1</sub> > W<sub>4</sub> > W<sub>2</sub>. The FTIR results showed that W<sub>2</sub> and W<sub>3</sub> presented a slightly more prominent and broader band than the other woods at 1731 cm<sup>-1</sup>, in agreement with the higher holocellulose content of these species, while W<sub>2</sub> and W<sub>4</sub> presented the most prominent peaks indicating higher lignin content than W<sub>1</sub> and W<sub>3</sub>. The SEM micrographs of the wood flour samples investigated indicated that the surfaces of the woods were rough and heterogeneous with irregular crystal and brick shaped particles. A two-way analysis of variance (ANOVA) carried out with respect to the chemical composition of the wood samples indicated that there was no statistically significant variation in the wood chemical composition between species as the p-value (0.852) obtained was greater than the critical level of α = 0.05. This work investigated and quantified the physicochemical, structural and morphological properties of four (4) tropical timbers as precursor raw materials for possible utilization in the wood plastic industry. The physicochemical properties of the wood samples such as the bulk and tapped density, moisture content, water absorption capacity at 25°C, volatile content, fixed carbon, ash content, alpha cellulose, hemicellulose, lignin, and extractives contents were determined using standard methods like the European Committee for Standardization and (CEN/TS) and the American Society for Testing Materials (ASTM) standards. The structural and morphological properties of the samples were examined with Fourier Infrared Transform (FTIR) spectroscopy and scanning electron microscope (SEM). Results indicated that the bulk density values of the timbers ranged from 0.34 g/cm<sup>3</sup> in Brachystegia eurycoma (W<sub>3</sub>) to 0.47 g/cm<sup>3</sup> in Erythrophleum suaveolens (W<sub>2</sub>), with the other timbers, Nuclea diderichii (W<sub>1</sub>) and Prosopis africana (W<sub>4</sub>) having the same bulk density of 0.40 g/cm<sup>3</sup>. With respect to their moisture content, W<sub>2</sub> had the highest value (8.38%) while Nauclea diderrichii had the lowest value (6.52%). The water absorption capacities of the woods studied correlated with the cellulose composition of wood in the order of: W<sub>3</sub> > W<sub>1</sub> > W<sub>4</sub> > W<sub>2</sub>. The FTIR results showed that W<sub>2</sub> and W<sub>3</sub> presented a slightly more prominent and broader band than the other woods at 1731 cm<sup>-1</sup>, in agreement with the higher holocellulose content of these species, while W<sub>2</sub> and W<sub>4</sub> presented the most prominent peaks indicating higher lignin content than W<sub>1</sub> and W<sub>3</sub>. The SEM micrographs of the wood flour samples investigated indicated that the surfaces of the woods were rough and heterogeneous with irregular crystal and brick shaped particles. A two-way analysis of variance (ANOVA) carried out with respect to the chemical composition of the wood samples indicated that there was no statistically significant variation in the wood chemical composition between species as the p-value (0.852) obtained was greater than the critical level of α = 0.05.
作者 Jude I. Duruaku Patrick A. C. Okoye Nkechi H. Okoye Joseph O. Nwadiogbu Valentine I. Onwukeme Rosemary U. Arinze Jude I. Duruaku;Patrick A. C. Okoye;Nkechi H. Okoye;Joseph O. Nwadiogbu;Valentine I. Onwukeme;Rosemary U. Arinze(Department of Pure and Industrial Chemistry, Nnamdi Azikwe University Awka, Awka, Nigeria)
出处 《Journal of Sustainable Bioenergy Systems》 2023年第4期131-148,共18页 可持续生物质能源系统(英文)
关键词 Wood Plastic Composites Density Water Absorption Capacity CELLULOSE Sustainability Wood Plastic Composites Density Water Absorption Capacity Cellulose Sustainability
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