超细纤维合成革柔软改性的研究进展

doi:10.19677/j.issn.1004-7964.2022.04.009

皮革科学与工程 ›› 2022, Vol. 32 ›› Issue (4): 54-59.doi: 10.19677/j.issn.1004-7964.2022.04.009

超细纤维合成革柔软改性的研究进展

高磊¹, 牛家嵘¹, 金欣^2,3, 钱晓明¹, 王闻宇^1,*, 林童^1,4

1.天津工业大学纺织科学与工程学院,天津 300387;
2.天津工业大学材料科学与工程学院,天津 300387;
3.天津工业大学省部共建分离膜与膜过程国家重点实验室,天津 300387;
4.迪肯大学前沿纤维研究与创新中心,澳大利亚吉朗 VIC3216

收稿日期:2021-09-30 出版日期:2022-08-28 上线日期:2022-07-11
通讯作者: *wwy-322@126.com
作者简介:高磊（1997-）,男,硕士研究生,15713712068,E-mail: 3491728794@qq.com。

Research Progress on Soft Modification of Microfiber Synthetic Leather

GAO Lei¹, NIU Jiarong¹, JIN Xin^2,3, QIAN Xiaoming¹, WANG Wenyu^1,*, LIN Tong^1,4

1. School of Textile Science and Engineering Tiangong University, Tianjin 300387, China;
2. School of Material Science and Engineering Tiangong University, Tianjin 300387, China;
3. State Key Laboratory of Separation Membranes and Membrane Processes,Tiangong University,Tianjin 300387, China;
4. Future Fibers Research and Innovation Center, Deakin University, Geelong VIC3216,Australian

Received:2021-09-30 Online:2022-08-28 Published:2022-07-11

摘要/Abstract

摘要： 概述了天然皮革与超细纤维合成革之间的区别与联系。综述了提升超细纤维合成革基布柔软性能的改性方法,包括柔软剂改性、加脂剂改性、生产工艺改性、纤维复合改性等方式,旨在通过对超细纤维合成革基布柔软改性方法进行归纳整理,为后续超细纤维合成革柔软改性的研究提供借鉴。

关键词: 超细纤维合成革基布, 柔软改性方法, 天然皮革

Abstract: The difference and connection between genuine leather and microfiber synthetic material are summarized. The modification methods to improve the softness of microfiber synthetic material base are reviewed, including softener modification, fatliquor modification, production process modification, fiber composite modification, and other modification methods. The purpose of this review is to provide reference for the subsequent research of microfiber synthetic material softening modification through the summarization and instruction to the softening modification methods of microfiber synthetic material base.

Key words: microfiber synthetic leather base, soften modification method, genuine leather

中图分类号:

TS565

高磊, 牛家嵘, 金欣, 钱晓明, 王闻宇, 林童. 超细纤维合成革柔软改性的研究进展[J]. 皮革科学与工程, 2022, 32(4): 54-59.

GAO Lei, NIU Jiarong, JIN Xin, QIAN Xiaoming, WANG Wenyu, LIN Tong. Research Progress on Soft Modification of Microfiber Synthetic Leather[J]. Leather Science and Engineering, 2022, 32(4): 54-59.

参考文献

[1] 任龙芳,赵国徽,强涛涛,等.超细纤维合成革仿天然皮革研究进展[J].皮革科学与工程,2012,22(1):36-40.
[2] 许维. 天然皮革微观结构及其透气透湿性能研究[D].武汉:武汉纺织大学,2012.
[3] SUDHA T B,THANIKAIVELAN P,AARON K P,et al.Com-fort,chemical,mechanical,and structural properties of natural and synthetic leathers used for apparel[J].Journal of Applied Polymer Science,2009,114(3):1761-1767.
[4] BUEHLER M J.Nature designs tough collagen:Explaining the nanostructure of collagen fibrils[J].Proceedings of the National Academy of Sciences of the United States of Amer-ica,2006,103(33):12285-12290.
[5] 朵永超,钱晓明,赵宝宝,等.超纤革仿天然皮革研究进展[J].中国皮革,2019,48(03):46-49+54+62.
[6] 高龙飞,钱晓明,王立晶,等.上浆浆料对超细纤维合成革性能的影响[J].皮革科学与工程,2021,31(6):39-44.
[7] 刘凡,钱晓明.提高超细纤维合成革透湿透气性能的研究进展[J].纺织导报,2017(8):78-80.
[8] 于洪涛. 超细纤维合成革透湿透气性能的研究进展[J].西部皮革,2019,41(8):160.
[9] 蒋志青,尹德河,陈建民,等.定岛型海岛纤维的生产及其在超纤革中的应用[J].现代纺织技术,2018,26(3):29-33.
[10] 黄洁希,张玲.海岛纤维的生产方法及研究进展[J].化纤与纺织技术,2019,48(1):34-38.
[11] CHEN Min,ZHOU Dong liang,CHEN Yong,et al.Analyses of structures for a synthetic leather made of poly urethaneand microfiber[J].Journal of Applied Polymer Science,2010,103(2):903-908.
[12] PAN Zhi jian,ZHU Mei fang,CHEN Yan mo,et al.The vari-ation of fibrils’number in the sea-island fiber-low density polyethylene/polyamide6[J].Fibers&Polymers,2010,11(3):494-499.
[13] 蒋志青,郭亚.海岛纤维的生产及应用[J].成都纺织高等专科学校学报,2017,34(3):209-212.
[14] Xu Xu,Wu Zhi ping.Environmental Cost Analysis and Upgrading Research of Synthetic Leather Industry[J].Energy Procedia,2011,5.
[15] 卢志敏,钱晓明.桔瓣型双组分纺粘水刺超细纤维革基布的发展及应用[J].非织造布,2011,19(2):1-4.
[16] Heng Z,Xiao ming Q,Qi Z,et al.Research on structure characteristics and filtration performances of PET-PA6 hollow segmented-pie bicomponent spunbond nonwovens fibrillated by hydro entangle method[J].Journal of Industrial Textiles,2014,45(1):48-65.
[17] Yeom B Y,Pourdeyhimi B.Aerosol filtration properties of PA6/PE islands-in-the-sea bicomponent spunbond web fibrillated by high-pressure water jets[J].Journal of Materials Science,2011,46(17):5761-5767.
[18] Lu Z M,Qian X M.Spunbonded Nonwovens Made from Segmented Pie Filaments[J].Advanced Materials Research,2011,194-196:726-729.
[19] 卢志敏,钱晓明.桔瓣型双组分纺粘水刺超细纤维革基布的发展及应用[J].非织造布,2011,19(2):1-4.
[20] 成枫,黄有佩.双组分超细纤维纺粘水刺非织造布生产与应用[J].合成纤维,2009,38(8):41-42.
[21] 马兴元,杨西萍,胡雪丽,等.PET/PA6橘瓣型超细纤维合成革基布的微观结构与性能[J].皮革科学与工程,2013,23(4):19-22.
[22] 赵宝宝,钱幺,刘凡,等.中空桔瓣型超细纤维/水性聚氨酯合成革的制备及性能[J].复合材料学报,2017,34(11):2392-2400.
[23] 刘凡. 橘瓣型双组份纺粘超细纤维合成革基布的工艺探究[D].天津:天津工业大学,2018.
[24] 王建,李永贵,朱亚楠,马萍,葛明桥.柔软整理对夜光涂层织物性能的影响[J].纺织学报,2013,34(9):99-102.
[25] 胡灿辉,朱泉,郭玉良.亲水有机硅柔软剂的应用性能[J].印染,2016,42(7):31-33.
[26] Esmaeilian N,Arami M,Mazaheri FM,et al.A comparison between microwave-assisted and thermally synthesized esterquat softeners used as textile softening agents[J].The Journal of The Textile Institute,2014,105(6):99-102.
[27] 黄果,赵涛.羊毛织物亲水柔软整理剂的合成与应用[J].染整技术,2017,39(4):27-31.
[28] 袁洁,贺江平.聚醚型有机硅聚氨酯柔软剂的合成与应用[J].印染,2016(1):9-13.
[29] 王杨阳. 不定岛聚酰胺超细纤维合成革仿天然皮革后整理技术研究[D].西安:陕西科技大学,2017.
[30] 刘凡,钱晓明,赵宝宝,等.柔软处理对涤纶/锦纶6中空桔瓣型超细纤维非织造布性能的影响[J].纺织学报,2018,39(3):114-119.
[31] 黄新霞,陈慧.加脂对成革机械性能影响[J].皮革科学与工程,2006,16(5):28-30.
[32] 王霏霏,付丽红,王乐智,等.加脂工艺在超纤革中的应用研究[J].西部皮革,2020,42(1):35-37+40.
[33] 强涛涛,王杨阳,任龙芳,等.加脂剂在超细纤维合成革仿真皮中的应用研究[J].陕西科技大学学报(自然科学版),2016,34(4):21-25+53.
[34] 刘凡. 橘瓣型双组份纺粘超细纤维合成革基布的工艺探究[D].天津:天津工业大学,2018.
[35] 蔡志江,钱晓明,郭杰.一种海岛型超细纤维仿真皮革基布的生产方法[P].天津,CN103437069A,2013-12-11.
[36] LI Xiao ran,XIE Jing wei,LIPNERJ,et al.Nanofiber scaffolds with gradations in mineral content for mimicking the tendon-to-bone insert ionsite[J].NanoLetters,2009,9(7):2763-2768.
[37] Hollowell K B,Anantharamaiah N,Pourdeyhimi B.Hybrid mixed media nonwovens composed of macrofibers and microfibers.Part I:three-layer segmented pie configuration[J].Journal of the Textile Institute,2013,104(9):972-979.
[38] 唐虹,张渭源,黄晓梅.机织面料吸湿快干梯度结构的构建[J].纺织学报,2006,27(8):41-44.
[39] 赵宝宝,钱幺,钱晓明,等.梯度结构双组分纺粘水刺非织造材料的制备及其性能[J].纺织学报,2018,39(5):61-66.
[40] 朵永超,钱晓明,赵宝宝,等.聚酯-聚酰胺6中空桔瓣超细纤维/Lyocell纤维非织造复合材料的制备与性能[J].复合材料学报,2021,38(4):1231-1241.
[41] Dhurai B,Thangamani K.A study on fibrillation properties of Lyocell fiber[J].Colourage,2011,58(1):45-48.
[42] 钟国翔,杨革生,周志鹏,等.原纤化Lyocell纤维/聚乳酸复合材料的结构与性能[J].高分子材料科学与工程,2020,36(1):55-60.
[43] Gong R H,Nikoukhesal A.Hydro-entangled bi-component microfiber nonwovens[J].Polymer Engineering&Science,2010,49(9):1703-1707.
[44] 焦体峰,黄欣欣,展方可.静电纺丝制备纳米纤维材料及应用研究进展[J].燕山大学学报,2018,42(4):283-295.
[45] 陈锋,姬忠礼,齐强强.静电纺聚丙烯腈纳米纤维复合滤材的制备及其气液过滤性能[J].纺织学报,2017,38(9):8-13.
[46] Sundarrajan S,Tan K L,Lim S H,et al.Electrospun nanofibers for air filtration applications[J].Procedia Engineering,2014,75:159-163.
[47] Ramakrishna S,Jose R,Archana P S,et al.Science and engineering of electro spun nanofibers for advances in clean energy,water filtration,and regenerative medicine[J].Journal of materials science,2010,45(23):6283-6312.
[48] Lee J S,Kwon O S,Park S J,et al.Fabrication of ultrafine metal-oxide-decorated carbon nanofibers for DMMP sensor application[J].ACS nano,2011,5(10):7992-8001.
[49] Lee S,Obendorf S K.Use of electrospun nanofiber web for protective textile materials as barriers to liquid penetration[J].Textile research journal,2007,77(9):696-702.
[50] 李蓉,葛新,常留栓,等.用于生化战剂防护服的静电纺丝纳米功能纤维研究进展[J].医疗卫生装备,2015,000(9):107-111.
[51] Zhao B,Qian X,Qian Y,et al.Preparation of high-performance microfiber synthetic leather base using thermoplastic polyurethane/sulfonated poly sulfone electro spun nanofibers[J].Textile Research Journal,2019,89(14):2813-2820.
[52] Yongchao Duo,Xiaoming Qian,Baobao Zhao,et al.Improving hygiene performance of microfiber synthetic leather base by mixing polyhydroxybutyrate nanofiber[J].Journal of Engineered Fibers and Fabrics,2019,14(5):1-7.
[53] 朵永超,钱晓明,赵宝宝,钱幺,等.超细纤维合成革基布的制备及其性能[J].纺织学报2020,41(9):81-87.
[54] Duo Y,Qian X,Zhao B,et al.Micro/nano microfiber synthetic leather base with different nanofiber diameters[J].Journal of Industrial Textiles,2021,50(7):1127-1142.

超细纤维合成革柔软改性的研究进展

Research Progress on Soft Modification of Microfiber Synthetic Leather

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 13

编辑推荐

Metrics

本文评价

[1]	沈悦, 周继博, 韩正, 李昊, 闫林萍, 廖学品, 石碧. 高Z-天然皮革复合γ射线屏蔽材料的制备及性能研究[J]. 皮革科学与工程, 2022, 32(4): 1-7.
[2]	陈玲;. 柏德中国:中国高档汽车内饰真皮的领导者[J]. , 2016, 26(03): 74-77.
[3]	陈宗良;孙世彧;贺艳丽;. 皮革鉴别技术研究新进展[J]. , 2014, 24(06): 29-32.
[4]	陈宗良;孙世彧;贺艳丽;. 皮革鉴别技术研究新进展[J]. , 2014, 24(06): 29-32.
[5]	任龙芳;孙森;强涛涛;王学川;陈小珂;. 低代PAMAM改性对超细纤维合成革透水汽性影响的研究[J]. , 2013, 23(03): 5-.
[6]	任龙芳;孙森;强涛涛;王学川;陈小珂;. 低代PAMAM改性对超细纤维合成革透水汽性影响的研究[J]. , 2013, 23(03): 5-.
[7]	任龙芳;赵国徽;强涛涛;王学川;李鹏妮;. 超细纤维合成革仿天然皮革研究进展[J]. , 2012, 22(01): 36-40.
[8]	任龙芳;赵国徽;强涛涛;王学川;李鹏妮;. 超细纤维合成革仿天然皮革研究进展[J]. , 2012, 22(01): 36-40.
[9]	. 第31届国际皮革工艺师和化学家协会联合会(IULTCS)大会在瓦伦西亚胜利召开[J]. , 2011, 21(06): 76-77.
[10]	. 第31届国际皮革工艺师和化学家协会联合会(IULTCS)大会在瓦伦西亚胜利召开[J]. , 2011, 21(06): 76-77.
[11]	王白鸽;刘子建;. 儿童皮鞋设计思路探讨[J]. , 2009, 19(03): 75-77.
[12]	陈玲;. 和鹰IBERTEC真皮裁床隆重上市[J]. , 2007, 17(05): 45-.
[13]	罗国雄;. 南非的制革工业[J]. , 1988, 0(03): 35-37.