Siti Asiyah Kasdi, Seng Hua Lee, Paridah Md. Tahir, Syeed Saifulazry Osman al-Edrus, Sabiha Salim, Muhammad Aizat Abd Ghani, Balkis Fatomer A. Bakar, Wei Chen Lum, Jun Zhang
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引用次数: 0
Abstract
Thirteen bamboo species are reported to be in commercial use in Malaysia. However, Buluh madu (Gigantochloa albociliata) did not make to the list. As a species, G. albociliata is cultivated for its delicious bamboo shoot and is demonstrated to possess great potential to produce commercialised products such as laminated bamboo panel. Unlike common bamboo, which has hollow cylindrical culms, G. albociliata has thick culms at the base, with smaller hollow cavities at the top portion. Therefore, it can be easily converted into high-thickness strips, thus improving the processing efficiency of laminated bamboo. To validate this theory, the anatomical, chemical, physical, and mechanical properties of G. albociliata were evaluated. The round bamboo and strips from the top and bottom sections of the bamboo stem were tested. It was found that G. albociliata has a vascular bundle type similar to that of the Gigantochloa genus bamboo. The fibre in G. albociliata is long and strong. The top section of bamboo has longer fibres, a higher density, and a higher specific gravity than the bottom section. As a result, bamboo from the top section has greater bending strength than bamboo from the bottom section. The G. albociliata species was discovered to have high mechanical strength, dimensional stability, and good wettability, making it an ideal material for laminated products.
据报道,在马来西亚有13种竹子被用于商业用途。然而,Buluh madu (Gigantochloa albociliata)没有上榜。作为一个物种,G. albociliata因其美味的竹笋而被种植,并被证明具有生产竹板等商业化产品的巨大潜力。普通竹子的茎是空心的圆柱形,与之不同的是,白竹的根部茎厚,顶部有较小的空心。因此,它可以很容易地转换成高厚度的条,从而提高竹片的加工效率。为了验证这一理论,我们对白桦的解剖、化学、物理和力学性能进行了评估。对圆竹和竹茎上、下段的竹条进行了试验。结果表明,竹的维管束类型与竹的维管束类型相似。白桦的纤维长而结实。竹子的顶部比底部有更长的纤维,更高的密度和更高的比重。因此,顶部的竹子比底部的竹子具有更大的抗弯强度。该材料具有较高的机械强度、尺寸稳定性和良好的润湿性,是层压制品的理想材料。
期刊介绍:
The purpose of BioResources is to promote scientific discourse and to foster scientific developments related to sustainable manufacture involving lignocellulosic or woody biomass resources, including wood and agricultural residues. BioResources will focus on advances in science and technology. Emphasis will be placed on bioproducts, bioenergy, papermaking technology, wood products, new manufacturing materials, composite structures, and chemicals derived from lignocellulosic biomass.