Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material
Windmill palm (<i>Trachycarpus fortunei</i>) fibre was obtained from different parts of windmill-palm trunk sheath and then treated by sodium hydroxide solution and hydrogen peroxide to obtain the treated palm fibril. The appearance of raw windmill palm fibre and treated palm fibril, mor...
Main Authors: | , , , , |
---|---|
Format: | Article |
Language: | English |
Published: |
Croatian Society of Chemical Engineers
2015-09-01
|
Series: | Kemija u Industriji |
Subjects: | |
Online Access: | http://pierre.fkit.hr/hdki/kui/vol64/broj9-10/467.pdf |
id |
doaj-a637c17a5cc745738ce2d53acb8ee5ea |
---|---|
record_format |
Article |
spelling |
doaj-a637c17a5cc745738ce2d53acb8ee5ea2020-11-25T00:09:17ZengCroatian Society of Chemical EngineersKemija u Industriji0022-98301334-90902015-09-01649-1046747210.15255/KUI.2015.016Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) MaterialC.-J. Chen0Y. Zhang1J.-J. Jia2M.-X. Wang 3G.-H. Wang4College of Textile and Clothing Engineering, Soochow University, 215 006 Suzhou, P.R. China b Violet Home Textile Company, 226 311 Nantong, P.R. China College of Textile and Clothing Engineering, Soochow University, 215 006 Suzhou, P.R. China b Violet Home Textile Company, 226 311 Nantong, P.R. China College of Textile and Clothing Engineering, Soochow University, 215 006 Suzhou, China Violet Home Textile Company, 226 311 Nantong, P.R. China College of Textile and Clothing Engineering, Soochow University, 215 006 Suzhou, P.R. China; Nantong Textile & Silk Industrial Technology Research Institute, 226 108 Nantong, P.R. ChinaWindmill palm (<i>Trachycarpus fortunei</i>) fibre was obtained from different parts of windmill-palm trunk sheath and then treated by sodium hydroxide solution and hydrogen peroxide to obtain the treated palm fibril. The appearance of raw windmill palm fibre and treated palm fibril, morphological characteristics, and statistical analysis of fibril length, diameter, and degree of hollowness were studied. The results indicate that the cylindrical windmill palm fibre has a sharp end. Silica-bodies attach themselves uniformly over the fibre, forming a rough surface. Spindly treated palm fibril without convolution has an ellipse cross-section and a larger lumen. Where we obtain the palm fibre has little effect on the characteristics of the fibril. The average length of treated palm fibril is 643.60 μm and the average long diameter is 10.35 μm. The degree of hollowness by elliptic model and paper-cut method correspond well and the difference between them is only 0.36 %. Windmill palm fibril is a natural hollow fibre with a degree of hollowness of about 47.21 %.http://pierre.fkit.hr/hdki/kui/vol64/broj9-10/467.pdfWindmill palm;fibrefibrilmorphology structure |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
C.-J. Chen Y. Zhang J.-J. Jia M.-X. Wang G.-H. Wang |
spellingShingle |
C.-J. Chen Y. Zhang J.-J. Jia M.-X. Wang G.-H. Wang Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material Kemija u Industriji Windmill palm; fibre fibril morphology structure |
author_facet |
C.-J. Chen Y. Zhang J.-J. Jia M.-X. Wang G.-H. Wang |
author_sort |
C.-J. Chen |
title |
Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material |
title_short |
Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material |
title_full |
Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material |
title_fullStr |
Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material |
title_full_unstemmed |
Morphology Research of Windmill Palm (<i>Trachycarpus fortunei</i>) Material |
title_sort |
morphology research of windmill palm (<i>trachycarpus fortunei</i>) material |
publisher |
Croatian Society of Chemical Engineers |
series |
Kemija u Industriji |
issn |
0022-9830 1334-9090 |
publishDate |
2015-09-01 |
description |
Windmill palm (<i>Trachycarpus fortunei</i>) fibre was obtained from different parts of windmill-palm trunk sheath and then treated by sodium hydroxide solution and hydrogen peroxide to obtain the treated palm fibril. The appearance of raw windmill palm fibre and treated palm fibril, morphological characteristics, and statistical analysis of fibril length, diameter, and degree of hollowness were studied. The results indicate that the cylindrical windmill palm fibre has a sharp end. Silica-bodies attach themselves uniformly over the fibre, forming a rough surface. Spindly treated palm fibril without convolution has an ellipse cross-section and a larger lumen. Where we obtain the palm fibre has little effect on the characteristics of the fibril. The average length of treated palm fibril is 643.60 μm and the average long diameter is 10.35 μm. The degree of hollowness by elliptic model and paper-cut method correspond well and the difference between them is only 0.36 %. Windmill palm fibril is a natural hollow fibre with a degree of hollowness of about 47.21 %. |
topic |
Windmill palm; fibre fibril morphology structure |
url |
http://pierre.fkit.hr/hdki/kui/vol64/broj9-10/467.pdf |
work_keys_str_mv |
AT cjchen morphologyresearchofwindmillpalmitrachycarpusfortuneiimaterial AT yzhang morphologyresearchofwindmillpalmitrachycarpusfortuneiimaterial AT jjjia morphologyresearchofwindmillpalmitrachycarpusfortuneiimaterial AT mxwang morphologyresearchofwindmillpalmitrachycarpusfortuneiimaterial AT ghwang morphologyresearchofwindmillpalmitrachycarpusfortuneiimaterial |
_version_ |
1725412811454021632 |