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Journal articles on the topic 'Eco-Friendly Regenerated Cellulosic Fiber'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Polat, Ertugrul, Md Hasan, Ahmed Mazari, and Muhammet Uzun. "Evaluation of weaving and dyeing properties of local regenerated yarns." Tekstilna industrija 71, no. 4 (2023): 14–22. http://dx.doi.org/10.5937/tekstind2304014p.

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As the demand for energy and raw material is increasing everyday, so the challenge of finding sustainable and environment friendly alternatives are becoming very crucial and challenging for the textile industry. Sustainability is one of the most required characteristics in textile production and consumption. As a result, regenerated cellulose fibers have become very popular for their identical properties to cotton, conforming to the sustainability goals of this sector. Production of regenerated cellulose fiber known as Ecocell the trend of sustainability is getting promoted. The aim of this st
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2

Trinh, Hue Thi Kim, and Mai Hương Bùi. "The Improving properties of Viscose fabric by water repellent finish." Science & Technology Development Journal - Engineering and Technology 4, no. 1 (2021): first. http://dx.doi.org/10.32508/stdjet.v4i1.788.

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Viscose as cellulosic origin, the cheapest of all cellulosic fabrics could be the best alternative. Viscose is manufactured from regenerated cellulose. In order to manufacture viscose, pulp of bamboo is treated with aqueous sodium hydroxide to form alkali cellulose. This alkali cellulose is then treated with carbon disulfide to form sodium cellulose xanthate. The xanthate is then dissolved in aqueous sodium hydroxide and allowed to depolymerize. After depolymerization, rayon fiber is produced from the ripened solution. Viscose is primarily employed in apparels, upholstery fabric, industrial cl
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Wang, Shengjun, Jiaqi Guo, Yibo Ma, Alan X. Wang, Xianming Kong, and Qian Yu. "Fabrication and Application of SERS-Active Cellulose Fibers Regenerated from Waste Resource." Polymers 13, no. 13 (2021): 2142. http://dx.doi.org/10.3390/polym13132142.

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The flexible SERS substrate were prepared base on regenerated cellulose fibers, in which the Au nanoparticles were controllably assembled on fiber through electrostatic interaction. The cellulose fiber was regenerated from waste paper through the dry-jet wet spinning method, an eco-friendly and convenient approach by using ionic liquid. The Au NPs could be controllably distributed on the surface of fiber by adjusting the conditions during the process of assembling. Finite-difference time-domain theoretical simulations verified the intense local electromagnetic fields of plasmonic composites. T
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4

Mounika, K.* Dr. K. B. Ilango Baranitharan A. K. Dhivyatharshini S. Gowtham K. Swetha V. Vijaykumar S. "Biodegradable Sanitary Napkins-An Innovative Approach Towards Menstrual Hygiene Using Bamboo Fiber And Lemon Grass." International Journal in Pharmaceutical Sciences 1, no. 11 (2023): 135–39. https://doi.org/10.5281/zenodo.10078084.

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Sanitary napkin is worn in direct skin contact and is an essential product for most women. Bamboo fiber is a cellulosic fiber that is regenerated from bamboo plant. It is a great prospective green fiber with outstanding biodegradable textile material, having strength comparable to conventional glass fibers. Bamboo used for fiber preparation is usually 3-4 years old. Emphasis is given to use of naturally available absorbent fibers such as organic cotton, banana fiber, jute, bamboo etc, which are widely available and biodegradable in nature having low carbon footprint which not only makes it eco
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Hindi, Sherif S. "Wastepaper-Based Cuprammonium Rayon Regenerated Using Novel Gaseous–Ammoniation Injection Process." Polymers 16, no. 17 (2024): 2431. http://dx.doi.org/10.3390/polym16172431.

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Rayon is an extremely valuable cellulosic fiber in the global textile industry. Since cuprammonium rayon is more eco-friendly than other types of rayon fabrics, it was synthesized by regenerating α–cellulose isolated from wastepaper using a novel gaseous-ammoniation injection (GAI) process. This was achieved by preparing tetra–ammine copper hydroxide (cuoxam solution) via reacting copper sulfate and sodium hydroxide to produce copper hydroxide that was, finally, ammoniated by injecting the gas directly to the reaction vessel instead of using ammonium hydroxide applied by prior art. After that,
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6

Swati, Sahu* Alka Goel. "PROPERTIES OF STRETCHABLE COVER SPUN YARNS DEVELOPED FROM LYOCELL AND SPANDEX." INTERNATIONAL JOURNAL OF ENGINEERING SCIENCES & RESEARCH TECHNOLOGY 5, no. 12 (2016): 383–88. https://doi.org/10.5281/zenodo.199657.

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Present paper reports the effect of change of spandex denier on the properties of stretchable lyocell-spandex cover spun yarn. The core component was spandex with 20D and 40D while sheath consisted of lyocell yarn; eco-friendly regenerated cellulosic yarns. The stretchable cover spun yarns were produced in a hollow spindle spinning frame. ANOVA was applied to study the significant effect of presence of spandex as well as effect of variation in denier of spandex was also noted. It was observed that yarn count, tenacity, breaking strength, elongation and imperfection of yarn was influenced due t
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7

Zhang, Qian, Ruoyao Wang, Yuhang Zou, Jifu Mao, and Lu Wang. "Turning industrial waste-flax noil into regenerated cellulose fiber electrodes for eco-friendly supercapacitors." Industrial Crops and Products 176 (February 2022): 114377. http://dx.doi.org/10.1016/j.indcrop.2021.114377.

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8

Mahmud, Rois U., Aminul Momin, Raijul Islam, Abu Bakr Siddique, and Ayub N. Khan. "Investigation of mechanical properties of pineapple-viscose blended fabric reinforced composite." Composites and Advanced Materials 31 (January 2022): 263498332210877. http://dx.doi.org/10.1177/26349833221087752.

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Composites with regenerated fiber bonded with natural fibers have attracted growing attention as the globe becomes more sustainable, ecofriendly, and environment-friendly. Pineapple leaf fiber is used for composite in this study since it is also handled as waste nowadays. Furthermore, viscose was chosen as a study variant since no one had ever tried a pineapple and viscose mixed composite before. Due to a scarcity of natural fiber production on Earth, regenerated cellulosic fiber reinforced with natural fiber is widely employed, providing a nearly identical experience by employing partial or l
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9

Liu, Wangcheng, Shuyan Liu, Tian Liu, Tuan Liu, Jinwen Zhang, and Hang Liu. "Eco-friendly post-consumer cotton waste recycling for regenerated cellulose fibers." Carbohydrate Polymers 206 (February 2019): 141–48. http://dx.doi.org/10.1016/j.carbpol.2018.10.046.

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10

Zhang, Shaokai, Chunxia Chen, Chao Duan, et al. "Regenerated cellulose by the Lyocell process, a brief review of the process and properties." BioResources 13, no. 2 (2018): 4577–92. http://dx.doi.org/10.15376/biores.13.2.zhang.

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Lyocell fiber has emerged as an important class of regenerated cellulose that is produced based on the N-methyl morpholine-N-oxide (NMMO) dissolution method, and it has unique properties compared to viscose fiber. The NMMO technology provides a simple, resource-conserving, and environmentally friendly method for producing regenerated cellulose fiber. In this paper, the manufacturing process, environmental impact, and product quality of lyocell fiber are reviewed and compared with those of the conventional viscose fiber.
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11

Degenstein, L. M., D. King, L. Lawson, W. Chute, and P. I. Dolez. "Novel lyocell fibre from Alberta-grown hemp." IOP Conference Series: Materials Science and Engineering 1266, no. 1 (2023): 012018. http://dx.doi.org/10.1088/1757-899x/1266/1/012018.

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Abstract Lyocell is a man-made, regenerated cellulosic fibre developed through cellulose dissolution in non-derivative solvents. Hemp offers a preferential source of cellulose for lyocell production as it is considered an environmentally friendly agricultural crop, requiring less water, fertilizers, pesticides, and herbicides than other crops and sequesters carbon dioxide (CO2) from the atmosphere. There are currently no Canadian sources of domestically manufactured lyocell filament or staple fibres. Our goal is to manufacture 100% lyocell fibre and to demonstrate techniques for pulping and so
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Isma’il, Nur Ikhsan, Dody Ariawan, and Wijang Wisnu Raharjo. "Effect of Addition of Dipersion Agent on Tensile Mechanical Strength of HDPE Water Hyacinth Composites." E3S Web of Conferences 465 (2023): 01009. http://dx.doi.org/10.1051/e3sconf/202346501009.

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Natural fiber-reinforced polymer composites are a solution to growing environmental threats. This research used water hyacinth natural fiber and HDPE thermoplastic polymer. Natural water hyacinth fiber contains cellulose which can be used to create environmentally friendly and high-strength composites. The uneven distribution of natural fibers in the composite causes a decrease in the quality of the composite, both in terms of mechanical strength and morphological structure. Clumping and agglomeration are caused due to the incorporation of regenerated cellulose fibers in the composite. The tre
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13

Rumi, Shaida S., Sumedha Liyanage, and Noureddine Abidi. "Conversion of low-quality cotton to bioplastics." Cellulose 28, no. 4 (2021): 2021–38. http://dx.doi.org/10.1007/s10570-020-03661-1.

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AbstractThe use of eco-friendly bioplastics has become a viable solution to reduce the accumulation of petrochemical products in the biosphere and to decrease microplastic contamination. In this study, we used low-quality cotton fibers that lack textile applications to prepare bioplastics. We dissolved cotton fibers in N,N-dimethylacetamide/lithium chloride (DMAc/LiCl) solvent system and converted cellulose solutions to strong, transparent, and flexible films through casting, gelation, regeneration, plasticization, and hot-pressing. Films were characterized using different analytical technique
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Biantoro, Reynaldo, and Chandra Apriana Purwita. "Review: Pembuatan Serat Rayon." JURNAL SELULOSA 9, no. 02 (2019): 51. http://dx.doi.org/10.25269/jsel.v9i02.273.

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Serat sintetis dari minyak bumi memiliki posisi penting dalam produk tekstil. Lebih dari 50% produksi serat dunia didominasi oleh serat sintetik. Meskipun serat sintetik lebih murah, produktivitasnya tinggi, dan lebih tahan lama tetapi serat tersebut tidak dapat terurai secara alami dan proses pembuatannya menggunakan bahan yang dapat merusak lingkungan dan mengancam kesehatan. Meningkatnya kesadaran terhadap isu-isu terkait ekologi dan lingkungan telah mendorong pencarian solusi alternatif bahan baku dan pengembangan metode pembuatan serat yang ramah lingkungan. Serat regenerasi merupakan jen
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15

Gülmez, Meltem, Damla Erdem, and Emine Dilara Koçak. "Influence of cellulose based on knitted fabric on thermal comfort properties performance." Journal of Textile Engineering & Fashion Technology 9, no. 4 (2023): 106–10. http://dx.doi.org/10.15406/jteft.2023.09.00342.

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Thermal comfort properties are very important factors for knitted fabrics. Optimized comfort properties are demanding during the design of garments, especially for sportswear, outerwear and underwear. Knitted fabrics produced from regenerated fibers other than cotton are highly preferred due to their eco-friendly, environmentally friendly and superior performance properties. In this study, the comfort properties of woven fabrics were investigated. In this study, single jersey knitted fabrics with cotton 100%, bamboo 100%, Modal 100%, Tencel 100% and Cotton/Bamboo (50:50%), Cotton/Modal (50:50%
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16

Sen, Arnab, Avijit Bhowal, and Siddhartha Datta. "Application of natural dye on polytrimethylene terephthalate fiber." Research Journal of Textile and Apparel 23, no. 1 (2019): 71–90. http://dx.doi.org/10.1108/rjta-06-2018-0041.

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PurposeThis paper aims to investigate the feasibility of developing an eco-friendly dyeing process for a regenerated polyester fiber (polytrimethylene terephthalate) using a natural dye (Lac) and bio-mordant.Design/methodology/approachThe effects of temperature, time, initial pH of dye bath, material to liquor ratio and mordant concentration on color strength of polytrimethylene terephthalate fiber dyed with Lac were examined. The results were compared using three bio-mordant (catechu, myrobalan and pomegranate) and three inorganic mordant (alum, ferrous sulfate and stannous chloride). Single
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17

Sawiak, Maria, Bernardo A. Souto, Lelia Lawson, Joy Lo, and Patricia I. Dolez. "Recovery of N-Methylmorpholine N-Oxide (NMMO) in Lyocell Fibre Manufacturing Process." Fibers 13, no. 1 (2025): 3. https://doi.org/10.3390/fib13010003.

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The lyocell process offers an environmentally friendly strategy to produce regenerated cellulose fibre from biomass. However, it is critical to recover and reuse the N-methyl-morpholine-N-oxide (NMMO) solvent to maximize the environmental benefits and lower the cost. This article reviews NMMO recovery and characterization techniques at the lab and industrial scales, and methods to limit the NMMO degradation during the process. The article also presents the results of a pilot study investigating the recovery of NMMO from lyocell manmade cellulosic fibre (L-MMCF) manufacturing wastewater. The wo
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18

Abro, Shaukat Ali, Nisar Ahmed, Juma Khan, et al. "Banana Cellulosic Fiber: A Natural Innovative and Sustainable Bio-Resource for Eco-Friendly Industrial Applications." Plant Health 2, no. 2 (2023): 57–64. http://dx.doi.org/10.33687/planthealth.02.02.5033.

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Growing concern about changing climate triggered by global warming, agro-waste disposal and synthetic non-renewable products are major challenges. World is moving from non-degradable and no-renewable, bio-degradable recyclable sustainable substitutions. Thus, there is increasing demand for natural fibers to substitute altered fiber with organic plant fibers like banana tree. After fruit cutting huge banana biomass is leftover in the field with mean biomass generated by a single pseudostem is around1.44 (±0.6) kg on dry weight basis and half ton of banana waste emitted about 0.5-ton CO2 and bur
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19

Geremew, Anteneh, Pieter De Winne, Tamene Adugna, and Hans de Backer. "An Overview of the Characterization of Natural Cellulosic Fibers." Key Engineering Materials 881 (April 2021): 107–16. http://dx.doi.org/10.4028/www.scientific.net/kem.881.107.

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Currently, researchers are more focusing on eco-friendly materials, sustainability, and low consumption of energy during the stage of handling, low initial cost, have appropriate mechanical properties and biodegradable and less susceptible to health hazards are the main challenge facing in the present day across the world especially to developing new materials that would improve the industrial supplies for making lightweight materials. Therefore; natural cellulosic fiber one, of effective strategies to substitute artificial fibers for its own benefits when compared and mainly concentrating to
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20

Azimi, Bahareh, Homa Maleki, Vito Gigante, et al. "Cellulose-based fiber spinning processes using ionic liquids." Cellulose 29, no. 6 (2022): 3079–129. http://dx.doi.org/10.1007/s10570-022-04473-1.

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AbstractCellulose, a natural, renewable, and environment friendly biopolymer, has been considered as a sustainable feedstock in the near future. However, only 0.3% of cellulose is today processed since it is not soluble in conventional solvents due to the strong hydrogen bonding network and highly ordered structure. Hence, the search of effective and eco-friendly solvents for cellulose dissolution has been a key pillar for decades. In the recent years, ionic liquids (ILs) have been proposed as green solvents for cellulose and have been applied for the production of cellulose-based fibers. This
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21

Piamonte, Alyanna Meline B., Carlo S. Emolaga, and Jeremiah C. Millare. "Nito “Core” Fiber-Reinforced Epoxy Composites: Enhancing Properties with NaHCO<sub>3</sub> Treatment." Materials Science Forum 1134 (December 11, 2024): 55–60. https://doi.org/10.4028/p-j8qceg.

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This study explores the use of sodium bicarbonate-treated Nito core fiber as a natural and eco-friendly alternative for fiber-reinforced composites to address the challenge of enhancing the mechanical properties of composite materials while also prioritizing environmental sustainability. Nito core fibers were treated with different concentrations of sodium bicarbonate, an economical and eco-friendly alternative to alkali treatment, to enhance its compatibility with various matrices. FTIR results showed that NaHCO3 treatment effectively removed and reduced some non-cellulosic components present
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22

Tahir, Muneeb, Ang Li, Marguerite Moore, Ericka Ford, Thomas Theyson, and Abdel-Fattah M. Seyam. "Development of Eco-Friendly Soy Protein Fiber: A Comprehensive Critical Review and Prospects." Fibers 12, no. 4 (2024): 31. http://dx.doi.org/10.3390/fib12040031.

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In the first half of the twentieth century, scientific communities worldwide endeavored to diminish dependence on expensive and scarce animal fibers like wool and silk. Their efforts focused on developing regenerated protein fibers, including soy, zein, and casein, to provide comparable benefits to natural protein fibers, such as lustrous appearance, warmth, and a soft feel. The popularity and cost-effectiveness of mass-produced petroleum-based synthetic polymer fibers during World War II diminished interest in developing soy protein fiber. Realizing the ecological degradation caused by fossil
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Rajarshi, Maity, Ali Khan Sabir, Mishra Anjan, et al. "Development of fire retardant eco-composite board from jute and bio based Euphorbia latexpolyvinyl alcohol (PVA) copolymer for structural purpose." Journal of Indian Chemical Society Vol. 97, No. 12a, Dec 2020 (2020): 2679–88. https://doi.org/10.5281/zenodo.5656051.

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Department of Applied Sciences, Haldia Institute of Technology, Hatiberia, Haldia, Purba Medinipur-721 657, West Bengal, India Chemical and Bio-chemical Division, National Institute of Research on Jute and Allied Fiber Technology, 12, Regent Park, Kolkata-700 040, India Department of Chemistry, Visvesvaraya National Institute of Technology, Nagpur-440 010, Maharashtra, India <em>E-mail:</em> pijuskhatua@gmail.com <em>Manuscript received online 10 November 2020, revised and accepted 23 December 2020</em> Natural fast growing lingo-cellulosic fabrics are widely used for the preparation of compos
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Yuso, Maria del Valle Martinez de, Ana Laura Cuevas, and Juana Benavente. "Physicochemical Characterization of a Cellulosic Film Modified with Two Room-Temperature Ionic Liquids." Applied Sciences 12, no. 20 (2022): 10290. http://dx.doi.org/10.3390/app122010290.

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Changes in the physicochemical characteristics of a regenerated cellulose (RC) film due to a surface modification with room-temperature ionic liquids (ILs) are determined. Two ILs (1-butyl-3-metylimidazolium hexafluorophosphate and tricaprylmethylammonium chloride) were selected, and film surface modification was performed by a dip-coating process (1 h) in the corresponding IL. The surface characterization of the RC/IL films was carried out by XPS at various take-off angles (from 15° to 75°), while the modification of mechanical properties was established by tensile analysis, obtaining a signi
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Xi, Rui, Jiayan Zhou, Beibei Jiang, et al. "Polydopamine-functionalized natural cellulosic Juncus effusus fiber for efficient and eco-friendly Cr (VI) removal from wastewater." Industrial Crops and Products 208 (February 2024): 117877. http://dx.doi.org/10.1016/j.indcrop.2023.117877.

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26

Hindi, Sherif S. "Novel Recycling, Defibrillation, and Delignification Methods for Isolating α-Cellulose from Different Lignocellulosic Precursors for the Eco-Friendly Fiber Industry". Polymers 16, № 17 (2024): 2430. http://dx.doi.org/10.3390/polym16172430.

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Alpha-cellulose, a unique, natural, and essential polymer for the fiber industry, was isolated in an ecofriendly manner using eleven novel systems comprising recycling, defibrillation, and delignification of prosenchyma cells (vessels and fibers) of ten lignocellulosic resources. Seven hardwood species were selected, namely Conocorpus erectus, Leucaena leucocephala, Simmondsia chinensis, Azadirachta indica, Moringa perigrina, Calotropis procera, and Ceiba pentandra. Moreover, three recycled cellulosic wastes were chosen due to their high levels of accumulation annually in the fibrous wastes of
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Gauss, Christian, Kim L. Pickering, Joshua Tshuma, and John McDonald-Wharry. "Production and Assessment of Poly(Lactic Acid) Matrix Composites Reinforced with Regenerated Cellulose Fibres for Fused Deposition Modelling." Polymers 14, no. 19 (2022): 3991. http://dx.doi.org/10.3390/polym14193991.

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Additive manufacturing can be a valuable tool to process polymeric composites reinforced with bio-based fibres, extending their use and opening new opportunities for more environmentally friendly materials. In this work, poly(lactic acid) (PLA) composites reinforced with regenerated cellulose fibres (lyocell) were processed into novel filaments and used for 3D printing. The Young’s modulus of the filaments increased with the addition of fibres, but substantial porosity was observed in formulations with 20 and 30 wt% of fibre content. Nonetheless, the composites were easily printed, and the for
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28

Imani, Monireh, Katarina Dimic-Misic, Mirjana Kostic, et al. "Achieving a Superhydrophobic, Moisture, Oil and Gas Barrier Film Using a Regenerated Cellulose–Calcium Carbonate Composite Derived from Paper Components or Waste." Sustainability 14, no. 16 (2022): 10425. http://dx.doi.org/10.3390/su141610425.

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It has been a persistent challenge to develop eco-friendly packaging cellulose film providing the required multiple barrier properties whilst simultaneously contributing to a circular economy. Typically, a cellulosic film made from nanocellulose materials presents severe limitations, such as poor water/moisture resistance and lacking water vapour barrier properties, related primarily to the hydrophilic and hygroscopic nature of cellulose. In this work, alkyl ketene dimer (AKD) and starch, both eco-friendly, non-toxic, cost-effective materials, were used to achieve barrier properties of novel c
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Mustaza, Azieman, Ridhwan Jumaidin, Mastura Taha, and Alia Ruzanna Aziz. "Thermal Properties and Characterization of Natural Cellulosic Fiber Isolated from Malaysian Oil Palm Leaf (Elaeis guineensis)." Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 129, no. 1 (2025): 136–53. https://doi.org/10.37934/arfmts.129.1.136153.

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This study investigates the characterization of natural fibers derived from Oil Palm leaves, focusing on their chemical composition, mechanical, thermal, and physical properties. Chemical analysis revealed a high cellulose content of 30.44%, highlighting the fiber's potential as a sustainable reinforcement material. Mechanical testing demonstrated an average tensile strength of 114.71 ± 8.50 MPa and a modulus of elasticity of 3.98 ± 0.52 GPa, indicating excellent mechanical performance. X-ray diffraction (XRD) analysis confirmed the presence of crystalline regions, with the crystalline size es
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Ma, Jinli, Xiao Wang, Jing Li, Ru Chen, and Ju Wei. "Facile Preparation of Flame Retardant Cotton Fabric via Adhesion of Mg(OH)2 by the Assistance of Ionic Liquid." Polymers 12, no. 2 (2020): 259. http://dx.doi.org/10.3390/polym12020259.

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A new approach for flame retardant functional finishing of textiles was explored to improve flame retardancy of cotton fabrics by simple physical adhesion method. Mg(OH)2 was adhered to cotton fiber with the aid of fiber swelling in ionic liquid on heating and shrinkage on washing to obtain flame retardancy. The effects of immobilizing condition and methods on flame retardancy were discussed. The surface morphology, crystal structure, combustion behavior, thermal and physical properties of cotton fabric adhered with Mg(OH)2 were analyzed. The afterflame time and afterglow time of adhered cotto
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Amior, Aicha, Hamid Satha, Fouad Laoutid, Antoniya Toncheva, and Philippe Dubois. "Natural Cellulose from Ziziphus jujuba Fibers: Extraction and Characterization." Materials 16, no. 1 (2022): 385. http://dx.doi.org/10.3390/ma16010385.

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Nowadays, due to their natural availability, renewability, biodegradability, nontoxicity, light weight and relatively low cost, natural fibers, especially lignocellulosic fibers, present attractive potential to substitute non-eco-friendly synthetic fibers. In this study, Ziziphus jujuba fibers were used, thanks to their low lignin content, as an alternative of renewable resource for the production of cellulosic fibers with suitable characteristics and minimal time and energy consumption. In fact, due to their valuable chemical composition, it was possible to remove the amorphous fractions and
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32

Dolez, Patricia I., Sabrina Marsha, and Rachel H. McQueen. "Fibers and Textiles for Personal Protective Equipment: Review of Recent Progress and Perspectives on Future Developments." Textiles 2, no. 2 (2022): 349–81. http://dx.doi.org/10.3390/textiles2020020.

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This article reviews recent developments in fibers and textiles for Personal Protective Equipment (PPE) applications. Fibers are grouped into six categories: highly extensible elastomeric fibers, cellulose-based fibers, commodity synthetic fibers, high strength inorganic materials, and high performance polymer fibers. New developments with highly extensible elastomeric fibers include polyester-based elastic fibers and shape memory polyurethane. In the case of cellulose-based fibers, environmentally friendly processes and nanotechnology-enabling treatments are developed for natural fibers where
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Zhang, Qiao Ling, and Rong Zhou. "The Study of Moisture Absorption and Release Properties of Tencel Fiber." Advanced Materials Research 627 (December 2012): 138–42. http://dx.doi.org/10.4028/www.scientific.net/amr.627.138.

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Tencel fiber is an environmental friendly regenerated cellulose fiber generated using solvent spinning method, which has been widely used in recent years for its good wearability. The experiment of moisture absorption and release properties was carried out in standard atmospheric conditions for different kinds of tencel fiber in this research, and then moisture absorption, moisture release, moisture absorption rate and moisture release rate regression curves were established and compared with those of ordinary viscose fiber. The results showed that the moisture absorption and release propertie
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34

Kreze, Tatjana, Simona Strnad, Karin Stana-Kleinschek, and Volker Ribitsch. "Influence of aqueous medium on mechanical properties of conventional and new environmentally friendly regenerated cellulose fibers." Materials Research Innovations 4, no. 2-3 (2001): 107–14. http://dx.doi.org/10.1007/s100190000089.

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35

Ali, Imran, Hafiz Muzzammel Rehman, Muhammad Usman Mirza, et al. "Enhanced Thermostability and Enzymatic Activity of cel6A Variants from Thermobifida fusca by Empirical Domain Engineering." Biology 9, no. 8 (2020): 214. http://dx.doi.org/10.3390/biology9080214.

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Cellulases are a set of lignocellulolytic enzymes, capable of producing eco-friendly low-cost renewable bioethanol. However, low stability and hydrolytic activity limit their wide-scale applicability at the industrial scale. In this work, we report the domain engineering of endoglucanase (cel6A) of Thermobifida fusca to improve their catalytic activity and thermal stability. Later, enzymatic activity and thermostability of the most efficient variant named as cel6A.CBC was analyzed by molecular dynamics simulations. This variant demonstrated profound activity against soluble and insoluble cellu
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Li, Hui, Jiehua Li, Chuanshan Zhao, and Fenfen Zhao. "Research on the Preparation of Supercapacitor Separators with High Wettability and Excellent Temperature Adaptability Through In Situ Deposition of Nano-Barium Sulfate on Regenerated Cellulose." Polymers 17, no. 7 (2025): 842. https://doi.org/10.3390/polym17070842.

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In this paper, environmentally friendly separator materials with high mechanical and electrochemical properties were prepared from regenerated cellulose. This was achieved by studying the drawbacks of existing supercapacitor separators and then preparing protofibrillated fibers and nanofibrillated cellulose. The process involved the in situ deposition of nano-BaSO4 using paper milling and papermaking techniques. The separators were tested for a tensile strength of 47.25 MPa, puncture strength of 156 gf, and tear strength of 8.9 KPa-m2/g; uniform pore size (0.6 μm–2 μm) and abundant porosity (8
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Randis, Randis, and Femiana Gapsari. "Enhanced structural and thermal properties of oil palm frond fiber-derived nanocellulose using chemical and mechanical treatments for eco-friendly composites." Jurnal Polimesin 23, no. 2 (2025): 218. https://doi.org/10.30811/jpl.v23i2.6270.

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This study investigates the extraction and characterization of Cellulose Nanofibrils (CNFs) from Oil Palm Frond Fibers (OPFFs) using a combined chemical and mechanical treatment approach. Alkali treatment and bleaching effectively removed non-cellulosic components, increasing the Crystallinity Index (CI) from 58.75% in untreated OPFFs to 73.09% in Chemically Treated Microfibrillated cellulose (CMFs). Subsequent ultrafine grinding further enhanced the CI to 81.93%, demonstrating high purity and improved structural integrity. Thermogravimetric Analysis (TGA) revealed enhanced thermal stability,
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Rodic-Grabovac, Branka, Radana Djudjic, and Pero Sailovic. "Influence of the structure of ceftazidime on obtaining biologically active cellulosic bandage." Chemical Industry 71, no. 1 (2017): 35–40. http://dx.doi.org/10.2298/hemind151214015r.

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Biologically active fibers as drug carriers have improved characteristics in comparison with conventional medical therapies. Cellulosic fibers as hydrophilic and biocompatible, nontoxic and eco-friendly make a good polymer matrix for obtaining biologically active fibers. Current investigations in this area show that the features of these fibers depend on the type of carrier as well as the drug structure. Loading drugs on the fiber carrier is accomplished by ionic bonding between ionized drugs and the groups fixed on the fiber (by ion exchange) or loosely adsorption on the fiber through hydroph
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Gautam, Prakash, Lucas Groβmann, Om Prakash Basyal, et al. "Argeli Bast Fiber as Wonder Reinforcing Agent for Biodegradable Polymer Composites." Nepal Journal of Environmental Science 12, no. 2 (2024): 1–8. https://doi.org/10.3126/njes.v12i2.68409.

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This paper has aimed to concisely discuss the insight into the potential of the Argeli bast fibers as reinforcing agents in eco-friendly polymer composites. The Argeli fibers used in this work as biofiller were prepared by mechanical disintegration of the sun-dried Argeli bast fiber bundles followed by chemical treatments and hence incorporated into the matrix of the PLA/PBAT blend via melt compounding. The materials were characterized by advanced analytical tools such as tensile and Shore D hardness testing, and optical and electron microscopy. The Argeli fibers, originally comprising the com
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Ni, Rabuyah, Abdul Somad Mustapha Kamal, Shahrina Shah Jahan, Siti Hajijah Ismail, and Harunal Rejan Ramji. "The Sorption Studies of Waste Cooking Oil using Raw and Treated Pineapple Crown Leaf." Journal of Smart Science and Technology 4, no. 2 (2024): 47–53. https://doi.org/10.24191/jsst.v4i2.89.

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The unregulated discharge of pollutants into water bodies has become an issue that led to pollution. Fiber derived from various forms of agricultural wastes as the sorbent is widely used as it has a high sorption capacity and efficiency. It is environmentally friendly and could be cost-effective as it only utilizes the unwanted parts of plants, which usually would otherwise be discarded. The pineapple crown leaf (PCL) and other plants with high cellulose content have potential for environmental applications. Oil pollutants, particularly waste cooking oil (WCO) from the food and beverage indust
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Sundarraj, Divya, Grace Annapoorani Soundarajan, Indran Suyambulingam, Divya Divakaran, Sanjay Mavinkere Rangappa, and Suchart Siengchin. "Extraction and Characterization of Novel Ligno-Cellulosic Fiber from Wrightia tinctoria and Cebia pentandra Plant for Textile and Polymer Composite Applications." Toward Successful Implementation of Circular Economy 31, S1 (2023): 125–38. http://dx.doi.org/10.47836/pjst.31.s1.07.

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Natural fibers derived from cellulose and ligno-celluloses materials have many advantages, such as being renewable, low density, inexhaustible, and cheap rather than synthetic fibers. Researchers and scientists are searching for a new fiber source that can be processed environmentally sustainable. The aim is to produce an organic and Eco-friendly product. The present investigation aims to extract and characterize ligno-cellulosic fiber from the seedpod of Wrightia tinctoria (WT) and Cebia pentandra (CP) plants. The extraction of WT fibers (WTFs) and CP fibers (CPFs) was carried out using the h
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Chen, Xuming, Christian Burger, Dufei Fang та ін. "Structure Development in Regenerated Cellulose Fibers Wet-Spun from Environmentally Friendly NaOH/Urea Aqueous Solutions Containing Cellulose Iβ Crystals". Journal of Biobased Materials and Bioenergy 1, № 2 (2007): 266–73. http://dx.doi.org/10.1166/jbmb.2007.031.

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Uwaremhevho Momodu, Daniel. "SURFACE FUNCTIONALIZATION OF LINEN FIBER AND ITS DYE-FASTNESS ASSESSMENT USING (4-[(E)-(4-AMINO-2-HYDROXYPHENYL) DIAZENYL] BENZENE- 1-SULPHONIC ACID AND 4-[(E)-(4-{(Z)-[4-(DIMETHYLAMINO) PHENYL] DIAZENYL}-2-HYDROXYPHENYL) DIAZENYL] BENZENE-1-SULPHONIC ACI." Suranaree Journal of Science and Technology 30, no. 3 (2023): 030118(1–9). http://dx.doi.org/10.55766/sujst-2023-03-e03039.

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Textile fibres find application in many fields, such as; Apparel manufacturing, Medical, Agriculture, Packaging, Civil construction, Shipping. Some of these fibres lack special characteristics required for some specific application without any additional treatment. Large scale production of linen fibre has been limited by the tendency of the fibre to absorb water, degradation by micro-organisms and sunlight. These factors ultimately lower the strength and the service life of the fibre. Hence, the need to improve the hydrophobicity of natural linen fibre before application. Poor dye-fibre inter
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Sunil, Kumar Singh, and Kapadia Memon Dr.Kashfina. "Experimental Studies on the Use of Coconut Fibre to Improve Concrete Strength." Journal of Building Construction 5, no. 1 (2023): 23–30. https://doi.org/10.5281/zenodo.7627534.

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<em>There is now a lot of interest in the development of technology for employing natural fibre materials in cement composites. There are several natural fibres on the planet, and most developing countries produce natural vegetable fibres. Such natural fibres have been used as reinforcement for non-organic materials for thousands of years. Some examples are straw for brick, mud in poles, and bamboo plaster. In this century, fibres from coconut, bamboo, wood cellulose, wool or chips, bark, leaves, seeds, and fruits have all been utilized in sand-based cement products. There are two categories i
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JOMAR, PAGGAO CRISTOBAL. "Development And Acceptability of Banana (Esp. Damilig-Musa Acuminata) Fiber as Alternative Source of Natural Fabric." International Journal of Innovative Research in Multidisciplinary Education 03, no. 05 (2024): 849–57. https://doi.org/10.5281/zenodo.11382955.

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Banana fiber yarn is a natural best fiber derived from the inner bark (or phloem) of banana plants. It is a very eco-friendly material, which also has the advantage of being completely biodegradable. This yarn is also known as banana silk, due to the shiny and silky aspect of the most precious fibers, or Musa yarn, from the Musa genre to which the banana plant belongs. The study will focus on the Development and Acceptability of Banana (Esp. Damilig-Musa Acuminata) Fiber as Alternative Source of Natural Fabric. The panel of experts will evaluate the following namely: DOST personnel, Garments i
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Zeleke, Nehemiah Mengistu, Devendra Kumar Sinha, and Getinet Asrat Mengesha. "Chemical Composition and Extraction of Micro Crystalline Cellulose from Outer Skin Isolated Coffee Husk." Advances in Materials Science and Engineering 2022 (December 13, 2022): 1–13. http://dx.doi.org/10.1155/2022/7163359.

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Coffee husk (CH) is a sustainable and abundantly available cellulosic waste material. Its fiber consists of cellulose as the major structural part which leads to potential utilization for the manufacturing of microcrystalline cellulose (MCC) products that can be utilized for different industrial applications. In the present study, chemical composition of outer skin-isolated coffee husk was determined and sequential treatments of various untreated (UT) sample, ethanol—toluene treated sample through dewaxed (DW) treatment, sodium hydroxide (NaOH)—treated sample through alkali (AT) treatment, and
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Paul, Tamal Krishna, Tazin Ibna Jalil, Md Shohan Parvez, et al. "A Prognostic Based Fuzzy Logic Method to Speculate Yarn Quality Ratio in Jute Spinning Industry." Textiles 2, no. 3 (2022): 422–35. http://dx.doi.org/10.3390/textiles2030023.

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Jute is a bio-degradable, agro-renewable, and widely available lingo cellulosic fiber having high tensile strength and initial modulus, moisture regain, good sound, and heat insulation properties. For these unique properties and eco-friendly nature of jute fibers, jute-based products are now widely used in many sectors such as packaging, home textiles, agro textiles, build textiles, and so forth. The diversified applications of jute products create an excellent opportunity to mitigate the negative environmental effect of petroleum-based products. For producing the best quality jute products, t
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Srichola, Preeyanuch, Kuntawit Witthayolankowit, Prakit Sukyai, et al. "Recycling of Nanocellulose from Polyester–Cotton Textile Waste for Modification of Film Composites." Polymers 15, no. 15 (2023): 3324. http://dx.doi.org/10.3390/polym15153324.

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Textile waste has emerged as a critical global challenge, with improper disposal practices leading to adverse environmental consequences. In response to this pressing issue, there is growing interest in recycling textile waste containing cellulose as an alternative approach to reducing the impact of industrial waste on the environment. The objective of this research is to investigate the extraction and characterization of nanocellulose from polyester–cotton textile waste as a potential solution to address the growing concerns of waste management in the textile industry. To obtain nanocellulose
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SHAHANAZ, Z., and ANISH SHARMILA Dr. "A review of some significant advances in the development of sanitary napkins from sustainable fibres." June 7, 2025. https://doi.org/10.5281/zenodo.15051233.

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In an era where eco friendliness and sustainability have become the key aspect of any product development, development of products using natural, cost effective and biodegradable materials has become mandatory. Sanitary napkins are one of the important areas where these have gained importance. A number of sustainable fibres like banana, bamboo fibres, etc are being designed recently. The article reviews some recent researches in this area. Bamboo fiber is a cellulosic fiber that is regenerated from bamboo plant. It is a great prospective green fiber with outstanding biodegradable textile mater
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Fazeli, Mahyar, Shariful Islam, Hossein Baniasadi, et al. "Exploring the potential of regenerated Ioncell fiber composites: a sustainable alternative for high-strength applications." Green Chemistry, 2024. http://dx.doi.org/10.1039/d3gc03637e.

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