Analysis of Fine Structure of Subtropical Plant Fibers Treated with Sodium Hydroxide or Liquid Ammonia by Microscope Observation and X-ray Diffraction Measurement

Six kinds of subtropical plant fibers taken from the Hibiscus, Pineapple, Okra, Plantain, Banana and Agave were treated with sodium hydroxide aqueous solution and liquid ammonia using a commercial plant. Cross section of the fibers were observed with microscope. Furthermore, in order to investigate...

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Bibliographic Details
Published in:Journal of Textile Engineering 2007, Vol.53(3), pp.95-100
Main Authors: SUGIURA, Kazuaki, JEONG, Dongseok, LEE, Muncheul, NAKAJIMA, Tetsutoshi, NISHI, Kenji, TOKUYAMA, Takako, WAKIDA, Tomiji, OKADA, Susumu
Format: Article
Language:English
Subjects:
Liquid ammonia
Microscope
Sodium hydroxide
Subtropical plant fibers
X-ray diffraction
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Summary:Six kinds of subtropical plant fibers taken from the Hibiscus, Pineapple, Okra, Plantain, Banana and Agave were treated with sodium hydroxide aqueous solution and liquid ammonia using a commercial plant. Cross section of the fibers were observed with microscope. Furthermore, in order to investigate the internal structure, X-ray diffraction measurement was carried out and the crystallinity of the treated fibers was obtained. From the observation of the cross section, it is clear that every fiber forms honey comb structure which consists of several to many cells, and each cell has a void in the cell. The void is comparably larger than that of the cotton lumen, and the void generally became smaller by the NaOH treatment. Furthermore, X-ray diffraction profile was measured for each fiber. Most of the fibers were changed from cellulose I to cellulose II by the NaOH treatment, whereas the fibers unchanged to cellulose III by the NH3 treatment. After the three times NH3 treatment, the cellulose III intensity increased comparably, although the cellulose I remains not a little for all samples. On the other hand, cotton fiber completely changed to the cellulose III structure by the NH3 treatment. Hereafter, it is necessary to investigate the void structure including the effect of lignin and cell-wall as a multicelluar plant fiber.
ISSN:1346-8235
1880-1986
DOI:10.4188/jte.53.95