期刊
JOURNAL OF THE TEXTILE INSTITUTE
卷 112, 期 8, 页码 1295-1303出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/00405000.2020.1813407
关键词
Bamboo crystallinity; crystallinity index; crystal size; X-ray diffraction; fiber lattice indices; crystallinity of fibers
Different bamboo species and bamboo fiber materials were investigated for crystallinity indexes using X-ray diffraction technique, showing varying degrees of crystallinity. The study revealed the impact of delignification processes on the crystallinity of bamboo fibers, providing insights for further modification processes to maintain fiber strength.
A comprehensive crystallographic investigation was performed by using X-ray (from cobalt source) diffraction (XRD) technique on different bamboo species, natural bamboo fibers (NBFs), commercial bamboo viscose products, and different conventional fibers. Crystallinity indexes (CIs) were estimated as 61-67% of bamboo plants, 69-73% of NBFs, 35-40% of bamboo viscose, and 77-80% of cotton fibers in this study. Results suggest that CI gradually increased during the delignification process to create NBFs up to a certain point and then decreased with further processes. Knowing this behavior informs decisions of the appropriate chemicals or enzymes for further modification processes and continuing to maintain the expected strength of the fiber. Therefore, delignifying raw bamboo increased the strength of the fibers until the maximum CI was achieved, but further extraction of lignin reduced the strength of the NBF resulting in a higher number of fiber breakage and short fibers. Red Margin was found to have lower CI that hinted at easier NBF extraction. With overall crystallite size of 35-39 angstrom, four crystalline peaks were detected in all bamboo and NBF specimens as (101),andat 17.0-18.6 degrees, 18.5-19.4 degrees, similar to 25.5 degrees, and similar to 40.5 degrees, respectively. Moreover, this study provides a list of lattice planes, interplanar spacings, reflection angles, and crystallite dimensions of the four targeted bamboo and NBF materials.
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