Open Access
Subscription Access
Production and Characterization of Polyurethane Ultrafine Fibre Webs Containing Boric Acid by Electrospinning
A novel material has been developed by electrospinning of thermoplastic polyurethane (TPU) ultrafine fibre webs containing boric acid (BA). The chemical characterization of the TPU/BA fibrous webs is determined by the energy dispersive spectrometer and the Fourier transform infrared spectroscopy. The morphologies and thermal properties of the webs obtained are investigated by scanning electron microscopy and the differential scanning calorimeter respectively. The electrospun fibrous webs’ air permeability performance and thickness are also measured. The morphologies of TPU fibrous webs change slightly by adding BA, and the fibre structures are maintained. The results obtained demonstrate that the electrospun TPU/BA fibrous webs may have a wide variety of potential applications in protective textiles and high-performance filters.
Keywords
Boric Acid, Electrospinning, High Performance Filter, Polyurethane, Permeability, Ultrafine Fibre Webs.
User
Font Size
Information
- Nanofibers Market Size, Share & Trends Analysis Report 2017-2024, (Grand View Research Inc.), https://www.grandviewresearch.com/industry-analysis/ nanofibers-market (accessed on 1.03.2021).
- Pakolpakcil A & Draczynski Z, J Text Inst, 113 (2021) 1908.
- Islam M S, Ang B C, Andriyana A & Afifi A M, SN Appl Sci, 1 (2019) 1248.
- Thenmozhi S, Dharmaraj N, Kadirvelu K & Kim H Y, Mater Sci Eng B, 217 (2017) 36.
- Forrest H N & Susan L M, Evid-Based Compl Alt, 16 (2011) 3.
- Abdelnour S A, Abd El-Hack M E, Swelum A A, Perillo A & Losacco C, J Trace Elem Med Biol, 50 (2018) 296.
- Nielsen F H, J Trace Elem Med Biol, 28 (2014) 379.
- Uslu I, Celikkan H, Atakol O & Aksu M L, Hacet J Biol Chem, 36 (2008) 2.
- Uslu I, Altas A, Aksu M L & Gokmeşe F, Hacet J Biol Chem, 37 (2009) 1.
- Selvakumar N, Azhagurajan A, Natarajan T S & Khadir M M A, J Appl Polym Sci, 126 (2012) 614.
- Isik A F, Keskin N O S & Ulcay Y, J Text Inst, 110 (2019) 4.
- Parin F N, Terzioglu P, Parin U, Yesilyurt A, Eroglu M & Yildirim K, Mater Today Commun, 29 (2021) 102921.
- Akduman C & Kumbasar E P A, in Electrospun Polyurethane Nanofibers, edited by F Yilmaz (IntechOpen), 2017.
- Pakolpakcil A & Draczynski Z, Materials, 14 ( 2021) 6949.
- Mohraz M H, Golbabaei F, Yu I J, Mansournia M A, Zadeh A S & Dehghan S F, Int J Environ Sci Technol, 16 (2019) 681.
- Letha S S, Kumar A S, Nisha U & Rosemary M J, J Text Ins. 113 (2022) 378.
- Mistry P, Chhabra R, Muke S, Narvekar A, Sathaye S, Jain R & Dandekar P, Mat Sci Eng C, 119 (2021) 111316.
- Kim Y N, Ha Y M, Park J E, Kim Y O, Jo J Y, Han H, Lee D C, Kim J & Jung Y C, Polym Test, 93 (2021) 107006.
- Mrunalini K G, Pudke S P & Sharma C S, J Appl Polym Sci, 138 (2021) 11.
- Tijing L D, Ruelo M T G, Amarjargal A, Pant H R, Park C H, Kim D W & Kim C S, Chem Eng J, 197 (2012) 41.
- Wang Y, Li W, Zhou Y, Jiang L, Ma J, Chen S, Jerrams S & Zhou F, J Mater Sci, 55 (2020) 12592-12606.
- Gostev A A, Shundrina I K, Pastukhov V I, Shutov A V, Chernonosova V S, Karpenko A A & Laktionov P P, Polymers, 12 (2020) 845.
- Nirmala R, Nam K T, Navamathavan R, Park S J & Kim H Y, Nanoscale Res Lett, 6 (2011) 2.
- Shawgi N, Li S X & Wang S, Ceram Int, 43 (2017) 13.
- Basf, Elastollan® technical data sheet, http://www.automchina.com/Basf%20C95A.pdf (accessed on 1.03.2021).
- Xu J, Cheng L, Zhang Z, Zhang L, Xiong C, Weishan H, Xieb Y & Yang L, RSC Adv, 9 (2019) 818.
- Liu Y Q, Feng J W, Zhang C C, Teng Y, Liu Z & He J H, Therm Sci, 22 (2018) 4.
- Pakolpakcil A, Draczynski Z, Szulc J, Stawski D, Tarzynska N, Bednarowicz A, Sikorski D, Hernandez C, Sztajnowski S, Krucinska I & Gutarowska B, Appl Sci, 11 (2021) 8219.
- Liu X, Lin T, Fang J, Yao G, Zhao H, Dodson M & Wang X, J Biomed Mater Res A, 94 (2010) 2.
Abstract Views: 176
PDF Views: 101