Browse > Article
http://dx.doi.org/10.5764/TCF.2020.32.1.57

Preparation and Characterization of Alginate-gelatin/silk Wet-laid Nonwoven Fabric  

Choi, Hyun Jung (Korea Institute of Industrial Technology)
Bae, Young Hwan (Korea Institute of Industrial Technology)
Lee, Hyun Ho (Fiber & Tech Co., Ltd.)
Yeo, Sang Young (Korea Institute of Industrial Technology)
Publication Information
Textile Coloration and Finishing / v.32, no.1, 2020 , pp. 57-64 More about this Journal
Abstract
In this study, alginate-gelatin/silk wet-laid nonwoven fabrics were prepared by using alginate gelatin fiber and silk fiber, as the main fiber, and PVA fiber as binder fiber. The characterization of pore size and mechanical property was carried out on the various weight ratios of alginate gelatin fiber and silk fibers, or the adding binder fibers. As the content of silk or binder fiber increases, the tensile strength increases from 0.70 kgf/㎠ to 5.08 kgf/㎠ and the pore size decreases 111.6 ㎛ to 51.00 ㎛. As the weight of the silk increased, the density increased, and binder fiber was added to enhance the cohesion between fibers, thereby increasing the wet-laid nonwoven fabric strength. We studied on wet-laid nonwoven fabrics that can be applied to mask sheet with adjustable pore size.
Keywords
alginate; gelatin; wet-laid nonwoven; tensile-strength; pore size;
Citations & Related Records
연도 인용수 순위
  • Reference
1 T. Y. Ahn, J. I. Kim, J. H. Choi, H. J. Cho, US20190110961A1(2019).
2 J. B. Wilkinson and R. J. Moore, "Face Packs and Masks", In: Harry's Cosmetology, Longman Group, London, pp.276-284, 1982.
3 I. B. Aranda and E. F. Lucas, Poli(Alcool Vinílico) Modificado com Cadeias Hidrocarbonicas: Avaliacao do Balanco Hidrofilo/Lipofilo, Polimeros, 11(4), 174(2001).   DOI
4 M. A. Niforoushzadeh, M. A. Amirkhani, P. Zarrintaj, A. S. Moghaddam, T. Mehrabi, S. Alavi, and M. M. Sisakht, Skin Care and Rejuvenation by Cosmeceutical Facial Mask, Journal of Cosmetic Dermatology, 17(5), 693(2018).   DOI
5 X. F. Grace, R. J. Vijetha, S. Shanmuganathan, and D. Chamundeeswari, Preparation and Evaluation of Herbal Face Pack, Advanced Journal of Pharmacie and Life Science Research, 2(3), 1(2014).
6 Z. Gao, Z. Yu, C. Huang, L. Duan, and G. H. Gao, Carboxymethyl Cellulose Reinforced Poly(vinyl alcohol) with Trimethylol Melamine as a Chemical Crosslinker, Journal of the Applied Polymer Science, 134(11), 1(2016).
7 N. Hiremath and G. Bhat, Melt Blown Polymeric Nanofibers for Medical Applications-an Review, Nanoscience and Technology, 2(1), 1(2015).
8 Y. Qin, C. Agboh, X. Wang, and D. K. Gilding, Alginate Fiber, Chemical Fibers International, 46, 272(1996).
9 Y. Qin, The Characterization of Alginate Wound Dressings with Different Fber and Textile Structures, Journal of Applied Polymer Science, 100(3), 2516(2006).   DOI
10 X. Gong, G. Dang, J. Guo, Y. Liu, and Y. Gong, Sodium Alginate/feather Keratin-g-allyloxy Polyethylehe Glycol Composite Phase Change Fiber, International Journal of Biological Macromolecules, 131(15), 192(2019).   DOI
11 S. Lin, C. Ye, W. Zhang, A. Xu, S. Chen, J. Ren, and S. Ling, Nanofibril Organization in Silk Fiber as Inspiration for Ductile and Damage-tolerant Fiber Design, Advanced Fiber Materials, 3-4(1), 231(2019).
12 J. H. Lee, Y. S. Bae, S. J. Kim, D. W. Song, Y. H. Park, D. G. Bae, J. H. Choi, and I. C. Um, Preparation of New Natural Silk Non-woven Fabrics by Using Adhesion Characteristics of Sericin and their Characterization, International Journal of Biological Macromolecules, 106, 39(2018).   DOI