Evaluating the Physical and Fabric Hand Characteristics of Lyocell Fabrics                 Made with Different Wood Pulps

Ahn, Cheunsoon; Yoo, Hye Ja; Oh, Young-Se; Han, Samsook; Lee, Hye Ja; Kim, Jung Hee; Song, Kun; Rhie, Jeon Sook

doi:10.1177/004051750507500209

Cited by 10 publications

(7 citation statements)

References 3 publications

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“…Cold mercerization (NaOH 20⁰ Bé) improved the dye uptake (Goswami et al 2011). The cellulase enzyme wash cleaned the fabric surface (Morgado et al 2000;Carrillo et al 2003). Finally, the fabric was dried and transported to the printing mill.…”

Section: Weaving and Printingmentioning

confidence: 99%

Recycling of Superbase-Based Ionic Liquid Solvents for the Production of Textile-Grade Regenerated Cellulose Fibers in the Lyocell Process

Elsayed

Hellstén

Guizani

et al. 2020

ACS Sustainable Chem. Eng.

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Ioncell® is a Lyocell-based technology for production of man-made cellulose fibres. This technology exploits the intrinsic dissolution power of superbase-based ionic liquids (ILs) towards cellulose. The regenerated fibres are produced via a dry-jet wet spinning process, in which the cellulose filaments are stretched in an air gap before regenerating in an aqueous coagulation medium. In order to commercialize this process, it is essential to prove the techno-economic feasibility of this technology. That said, many important criteria are to be met, among them selecting a solvent with high cellulose dissolution power, proving a stable spinning process and yielding fibres of good mechanical properties. Most of all, it is critical to demonstrate the recovery of the solvent from the coagulation bath without impairing its solvation power. This study reports on the spinnability and recyclability of the IL 7-methyl-1,5,7-triazabicyclo[4.4.0] dec-5-enium acetate ([mTBDH][OAc]) over five cycles in comparison to 1,5-diaza-bicyclo[4.3.0]non-5-enium acetate ([DBNH][OAc]). The ILs were recovered from the coagulation bath by consecutive thermal treatments under reduced pressure. Accordingly, the recovered ILs were utilized to dissolve 13 wt.% cellulose in each cycle, without the addition of make-up IL, to form a homogeneous solution suitable for the dry-jet wet spinning. Using [mTBDH] [OAc], cellulose could be fully dissolved in all five cycles. In contrast, cellulose dissolution was only possible with fresh [DBNH][OAc] as the ability to dissolve cellulose was lost after the first recovery. This study focuses on the composition of the recovered ILs and the extent of side-products generation. Additionally, we present the rheological properties of the solutions as well as the macromolecular and mechanical properties of th e regenerated fibres. Also, the toxicity of both solvents was investigated using Vibrio fischeri bacteria. Finally, the spun fibres from al l [mTBDH][OAc] spinning trials were combined to produce a demonstration dress (Paju), designed and sewn by Marimekko Design House in Finland.

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Section: Weaving and Printingmentioning

confidence: 99%

Recycling of Superbase-Based Ionic Liquid Solvents for the Production of Textile-Grade Regenerated Cellulose Fibers in the Lyocell Process

Elsayed

Hellstén

Guizani

et al. 2020

ACS Sustainable Chem. Eng.

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“…First, a resin finishing mixture (resin + low density polyethylene resin (LDPE) + MicroSilicone + wetting agent, no acid) improved wrinkle recovery (Jaturapiree et al 2011). A mechanical Pentek finishing gave a soft touch to the fabric, and finally, the sanforizing process reduced the shrinkage of the fabric (Ahn et al 2005).…”

Section: Weaving and Printingmentioning

confidence: 99%

Limitations of Cellulose Dissolution and Fiber Spinning in the Lyocell Process Using [mTBDH][OAc] and [DBNH][OAc] Solvents

Elsayed

Viard

Guizani

et al. 2020

Ind. Eng. Chem. Res.

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for the coffee breaks and the after-work chats. To my family, Simone you were my additional motive. Your help and support in my last year have been priceless. Thank you, Magdy, my dear father and brother, for your love and support. Finally, to my mother, you are the first person I think of whenever I want to share something. I still talk to you, and you still listen. Mother, although you have departed from this world, in my heart you always live.

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“…difference ÁT, under steady state conditions, and when heat transfer is dependent only on the temperature gradient [10][11][12][13]. Thermal conductivity = heat flow rate Â distance/(area Â temperature difference)…”

Section: Thermal Conductivitymentioning

confidence: 99%

“…Thermal conductivity (K) is an intensive property of the material that indicates its ability to conduct heat. It is defined as the quantity of heat, Q, transmitted through a thickness, L, in a direction normal to a surface of area A, due to temperature difference ÁT, under steady state conditions, and when heat transfer is dependent only on the temperature gradient [10][11][12][13]. Thermal conductivity = heat flow rate Â distance/(area Â temperature difference)…”

Section: Thermal Conductivitymentioning

confidence: 99%

“…The advantages of lyocell include more softness, gentle to the skin, high absorbency, excellent water management property, cool and dry to touch, strong retardation to bacterial growth, and excellent wet strength. Abu-Rous et al made an effort to explain the functional and wellness properties of lyocell textiles using the nano-and porous structures of lyocell which is radically different from the other known cellulosics [9,10].…”

Section: Introductionmentioning

confidence: 99%

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Development of polyester-based bamboo charcoal and lyocell-blended union fabrics for healthcare and hygienic textiles

Kandhavadivu

Vigneswaran

Ramachandran

et al. 2011

Journal of Industrial Textiles

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Wearing of suitable dresses in hospitals and health clubs by the doctor and supporting staff has been accorded a very high priority by the hospital administration in order to protect them from getting infected by the germs and microorganisms and also from spreading the diseases to other patients. Due to the increase in awareness and concern about the healthcare textiles, it has become the need of the hour to develop hospital textiles with functional properties like antimicrobial, odor resistance, and comfort characteristics. In this research work, an attempt has been made to develop medical textiles from polyester-based bamboo charcoal (PBBC) yarn, which has certain unique properties necessary for hospital textiles like anti-bacterial, anti-fungal, and odor resistance. Two types of yarns were used for producing union fabrics, namely (1) PBBC produced by imbuing bamboo charcoal powder into the polyester master batch and (2) lyocell yarns (L). The plain-woven fabrics produced by combining these two yarns in different proportions are reported to have improved comfort properties when compared to 100% bamboo charcoal fabrics and hence could be used for the production of bedding, clothing, surgical gowns, and hospital cloths.

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Evaluating the Physical and Fabric Hand Characteristics of Lyocell Fabrics Made with Different Wood Pulps

Cited by 10 publications

References 3 publications

Recycling of Superbase-Based Ionic Liquid Solvents for the Production of Textile-Grade Regenerated Cellulose Fibers in the Lyocell Process

Recycling of Superbase-Based Ionic Liquid Solvents for the Production of Textile-Grade Regenerated Cellulose Fibers in the Lyocell Process

Limitations of Cellulose Dissolution and Fiber Spinning in the Lyocell Process Using [mTBDH][OAc] and [DBNH][OAc] Solvents

Development of polyester-based bamboo charcoal and lyocell-blended union fabrics for healthcare and hygienic textiles

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