Your search keyword '"Ben, Haoxi"' showing total 7 results

1. Relationship between Fiber Fineness and Diameter of Three Bast Fibers.

Author

Geng, Qian, Zhou, Chengfeng, Nie, Kai, Lv, Wanwan, Ben, Haoxi, Han, Guangting, and Jiang, Wei

Subjects

NATURAL fibers, PLANT fibers, FIBERS, KENAF, TEXTILE industry, DIAMETER

Abstract

Copyright of Journal of Natural Fibers is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

2. Improving Ramie Fibers Softness Using Ionic Liquid Treatment.

Author

Lv, Wanwan, Nie, Kai, Song, Yan, Li, Chuanhe, Ben, Haoxi, Zhang, Yuanming, Han, Guangting, and Jiang, Wei

Subjects

RAMIE, FIBERS, IONIC liquids, NATURAL fibers, CELLULOSE fibers, COTTON fibers, X-ray diffraction

Abstract

Copyright of Journal of Natural Fibers is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

3. A Facile Degumming Method of Kenaf Fibers Using Deep Eutectic Solution.

Author

Nie, Kai, Liu, Bingxu, Zhao, Tao, Wang, Hongyan, Song, Yan, Ben, Haoxi, Ragauskas, Arthur J., Han, Guangting, and Jiang, Wei

Subjects

KENAF, FIBERS, SURFACE structure, THERMAL properties, SURFACE cleaning

Abstract

Copyright of Journal of Natural Fibers is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

4. Preparation and Characterization of Microcellulose and Nanocellulose Fibers from Artemisia Vulgaris Bast.

Author

Nie, Kai, Song, Yan, Liu, Shaoyang, Han, Guangting, Ben, Haoxi, Ragauskas, Arthur J., and Jiang, Wei

Subjects

CELLULOSE fibers, ARTEMISIA, FIBERS, TRANSMISSION electron microscopy, RAW materials, COMPOSITE materials

Abstract

Artemisia vulgaris is an economic plant that is spreading widely in central China. Its unused bast generates a large amount of biomass waste annually. Utilizing the fibers in Artemisia vulgaris bast may provide a new solution to this problem. This research attempts to strengthen the understanding of Artemisia vulgaris by analyzing its fiber compositions and preparing micro- and nano-cellulose fibers, which can be used as raw materials for composites. In this work, Artemisia vulgaris bast powder (AP) and microcellulose and nanocellulose fibers (AMFs and ANFs) were produced and characterized by optical microscopy, transmission electron microscopy (TEM), X-ray diffraction (XRD), thermogravimetric analysis (TG), and bacteriostatic test. The results indicated that cellulose, hemicellulose, and lignin were the main components in the Artemisia vulgaris bast. The cellulose content reached 40.9%. The Artemisia vulgaris single fibers were microcellulose fibers with an average length of 850.6 μm and a diameter of 14.4 μm. Moreover, the AMF had considerable antibacterial ability with an antibacterial ratio of 36.6%. The ANF showed a length range of 250–300 nm and a diameter of 10–20 nm, and it had a higher crystallinity (76%) and a lower thermal stability (initial degradation temperature of 183 °C) compared with raw ANF (233 °C). This study provides fundamental information on Artemisia vulgaris bast cellulose for its subsequent utilization. [ABSTRACT FROM AUTHOR]

Published

2019

5. Microwave-assisted solid-state pretreatment for fabrication of hemp fibres using ethanolamine at low temperature.

Author

Xia, Wenying, Anwar, Almas, Wang, Lingyu, Cao, Zhihao, Li, Boya, Nie, Kai, Zhou, Chengfeng, Zhang, Yuanming, Han, Guangting, Jiang, Wei, Ben, Haoxi, and Zhao, Tao

Subjects

*LOW temperatures, *FIBERS, *NATURAL fibers, *LIGNIN structure, *HEMP, *ENERGY consumption, *ETHANOLAMINES, *X-ray diffraction, *CORN stover

Abstract

Conventional methods faced challenges in pretreating natural cellulose fibres due to their high energy consumption and large wastewater drainage. This research devised an efficient solid-state pretreatment method for pretreating hemp fibres using ethanolamine (ETA) assisted by microwave (MW) heating. This method produced a notable removal rate of lignin (85.4 %) with the highest cellulose content (83.0 %) at a high solid content (30 %) and low temperature (70 °C). Both FT-IR and XRD analyses indicated that the pretreatment did not alter the structure of cellulose within the hemp fibres but increased crystallinity as the CrI increased from 84 % in raw hemp fibre to 89 % in pretreated fibre. As a result, it produced hemp fibres with impressive fineness (4.6 dtex) and breaking strength (3.81 cN/dtex), meeting the requirement of textile fibre. In addition, an improvement in glucose concentration (15.6 %) was observed in enzymatic hydrolysis of the MW pretreated hemp fibres compared to the fibres pretreated without MW. Furthermore, the FT-IR and NMR data confirmed that the amination of lignin occurred even at low temperature, which contributed to the high lignin removal rate. Thus, this study presents a potentially effective energy-saving, and environmentally sustainable solid-state method for pretreating hemp fibres. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

6. A novel eco–friendly solid–state degumming method for extraction of hemp fibers.

Author

Zhao, Tao, Xia, Wenying, Li, Boya, Nie, Kai, Zhang, Yuanming, Han, Guangting, Jiang, Wei, and Ben, Haoxi

Subjects

*NATURAL fibers, *HEMP, *NATURAL resources, *FIBERS, *CRYSTAL structure, *LIGNINS

Abstract

Hemp represents a valuable resource of natural fibers on account of its environment favorable characteristics and excellent fiber quality. To fabricate hemp fibers, the traditional alkaline boiling degumming is used in the industry, which consumes a lot of water and generates a substantial amount of wastewater. In the present study, a novel eco–friendly solid–state degumming method was developed by using ethanolamine (ETA). The ETA degumming exhibited a high lignin removal rate (87.5%) at a high solid loading (30%), decreasing water consumption by 33.3%. Moreover, the ETA solution was readily reused up to five times without purification. The degummed hemp fibers possessed commendable fitness (4.2 dtex) and breaking strength (3.75 cN/dtex) without change of the crystalline cellulose structure. Besides, the lignin in wastewater was confirmed to be aminated, which is beneficial to the potential valorization of the by–product. Thus, the solid–state ETA degumming method holds significant potential for the fabrication of hemp fibers. [Display omitted] • A novel eco-friendly solid–state degumming method by using ethanolamine. • A high lignin removal rate (87.5%) at a high solid loading (30%). • Ethanolamine solution was reused up to five times without purification. [ABSTRACT FROM AUTHOR]

Published

2024

7. A green degumming process of ramie.

Author

Jiang, Wei, Song, Yan, Liu, Shaoyang, Ben, Haoxi, Zhang, Yuanming, Zhou, Chengfeng, Han, Guangting, and Ragauskas, Arthur J.

Subjects

*RAMIE, *TEXTILE industry, *NATURAL fibers, *MICROSTRUCTURE, *CHEMICAL oxygen demand

Abstract

Ramie provides the longest and strongest natural fiber in textile industry, but its traditional degumming process is costly and requires a large amount of alkali, which causes serious environmental concerns. In the current work, a steam explosion (STEX) treatment followed by sodium percarbonate (SP) soak degumming process was investigated. Microstructure, chemical composition and mechanical properties of the refined ramie fibers were comprehensively characterized. The residual gum content was below 5%, the fineness was higher than 1600 Nm (6.25 dtex), the breaking tenacity was 5.4 cN/dex, and the whiteness was above 50%. All of the properties met the requirements of Chinese national standard, and the breaking tenacity and whiteness were notably better than those of the fibers degummed traditionally. In addition, environmental impacts of the new degumming process were evaluated. Only 50% chemicals were needed for the new process, and chemical oxygen demand (COD) of the waste reduced to 35% of the traditional method. Therefore, the new method was more environment-friendly and economically feasible. It has great potential for industry applications. [ABSTRACT FROM AUTHOR]

Published

2018