Journal of Textile Research ›› 2018, Vol. 39 ›› Issue (11): 168-175.doi: 10.13475/j.fzxb.20171202708

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Research progress in test methods of friction properties of fiber and its products

    

  • Received:2017-12-14 Revised:2018-08-30 Online:2018-11-15 Published:2018-11-19

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Abstract:

Aiming at effectively solving the problems caused by friction during fiber and its products production process to improve the overall performance of fiber and its products, the defects of fiber and its products caused by friction, research background and significance of frictional properties were reviewed. Three kinds of test methods for studying fiber and its products’ frictional properties, which are point contact, line contact and area contact, were illustrated from fundamental methods, application scope and the latest progress in detail firstly. And then some research results on fiber and fabric frictional properties were summarized. In conclusion, the study for frictional properties of fiber and its products needs the cooperation of multi-disciplinary teams in fields of materials, mathematics and textiles. With combined innovation of development of mesoscopic contact friction model and corresponding surface friction coefficient distribution method, and development of high-precision frictional properties testing rig by according to fiber weaving process, the research on frictional properties of fiber and its products can be improved.

Key words: fiber, fiber product, frictional property, testing method, friction coefficient

[1] Gupta, Bhupender S, ed. Friction in textile materials. Elsevier, 2008.
[2] Mercer E H, Makinson K R. The frictional properties of wool and other textile fibers[J]. Journal of the Textile Institute Transactions, 1947, 38(5): T227-T240.
[3] Guthrie J C, Oliver P H. Inter-fiber friction of viscose rayon[J]. Journal of the Textile Institute Transactions, 1952, 43(12): T579-T594.
[4] Briscoe B J, Kremnitzer S L. A study of the friction and adhesion of polyethylene-terephthalate monofilaments[J]. Journal of Physics D: Applied Physics, 1979, 12(4): 505.
[5] Briscoe B J, Winkler A. A statistical analysis of the frictional forces generated between monofilaments during intermittent sliding[J]. Journal of Physics D: Applied Physics, 1985, 18(11): 2143.
[6] El Mogahzy Y E, Gupta B S. Friction in fibrous materials: Part II: experimental study of the effects of structural and morphological factors[J]. Textile Research Journal, 1993, 63(4): 219-230.
[7] Eddine G H, Barbier G, Kocher C W, et al. Experimental evaluation of transverse friction between fibers[J]. Tribology International, 2017.
[8] Briscoe B J, Motamedi F. Role of interfacial friction and lubrication in yarn and fabric mechanics[J]. Textile Research Journal, 1990, 60(12): 697-708.
[9] Sch?n J. Coefficient of friction and wear of a carbon fiber epoxy matrix composite[J]. Wear, 2004, 257(3): 395-407.
[10] 王彧婕.介质阻挡放电等离子体改性芳纶纤维的界面性质的研究[D].四川大学,2007.
WANG Yujie. The study on interfacial properties of aramid fiber modified with air plasma method of dielectric barrier discharge[D]. Sichuan University,2007.
[11] Dong Z, Sun C T. Testing and modeling of yarn pull-out in plain woven Kevlar fabrics[J]. Composites Part A: Applied Science and Manufacturing, 2009, 40(12): 1863-1869.
[12] Zhu D, Soranakom C, Mobasher B, et al. Experimental study and modeling of single yarn pull-out behavior of kevlar? 49 fabric[J]. Composites part A: Applied Science and manufacturing, 2011, 42(7): 868-879.
[13] 程海霞.碳纤维/环氧树脂复合材料界面粘接强度的温度效应[D].东华大学,2016.
CHENG Haixia. Effect of temperatures on interfacial bonding strength of carbon fiber/epoxy resin composites[D]. Donghua University,2016.
[14] López-Gálvez H, Rodriguez-Millán M, Feito N, et al. A method for inter-yarn friction coefficient calculation for plain wave of aramid fibers[J]. Mechanics Research Communications, 2016, 74: 52-56.
[15] Huffington J D, Stout H P. The friction of fiber assemblies[J]. Wear, 1960, 3(1): 26-42.
[16] Gupta B S, Chang P T. Structural Studies in Continuous-Filament Yarns: Part III: Studies with Fiber Friction as a Variable[J]. Textile Research Journal, 1976, 46(2): 90-99.
[17] Gralén N, Olofsson B. Measurement of friction between single fibers[J]. Textile Research Journal, 1947, 17(9): 488-496.
[18] Hood B G. Investigation of the frictional properties of textile fibers under variable fiber stress[J]. Textile Research Journal, 1953, 23(7): 495-505.
[19] Gralen N. Friction between single fibers[J]. Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, 1952: 491-495.
[20] Kilic G B, Sülar V. Frictional properties of cotton-tencel yarns spun in different spinning systems[J]. Textile Research Journal, 2012, 82(8): 755-765.
[21] 吕柏祥,李伟光,艾哈麦德.织物表面摩擦性能测定[J]. 纺织学报,1996,(01):37-39+4.
LV Boxiang, LI Weiguang, AI Hamaide. Frictional properties of fabrics[J]. Journal of Textile Research,1996,(01):37-39+4.
[22] Ramkumar S S, Umrani A S, Shelly D C, et al. Study of the effect of sliding velocity on the frictional properties of nonwoven fabric substrates[J]. Wear, 2004, 256(3–4):221-225.
[23] Ramkumar S S, Rajanala R, Parameswaran S, et al. Experimental verification of failure of Amontons' law in polymeric textiles[J]. Journal of Applied Polymer Science, 2004, 91(6):3879–3885.
[24] Hermann D, Ramkumar S S, Seshaiyer P, et al. Frictional study of woven fabrics: The relationship between the friction and velocity of testing[J]. Journal of Applied Polymer Science, 2004, 92(4):2420-2424.
[25] Van Amber R R, Lowe B J, Niven B E, et al. The effect of fiber type, yarn structure and fabric structure on the frictional characteristics of sock fabrics[J]. Textile Research Journal, 2015, 85(2): 115-127.
[26] Bertaux E, Lewandowski M, Derler S. Relationship between friction and tactile properties for woven and knitted fabrics[J]. Textile Research Journal, 2007, 77(6):387-396.
[27] Bertaux E, Derler S, Rossi R M, et al. Textile, physiological, and sensorial parameters in sock comfort[J]. Textile Research Journal, 2010, 80(17): 1803-1810.
[28] 王华吉,赵衡柱,吴新跃,等.复合材料筒摩擦系数各向异性影响因素研究[J].导弹与航天运载技术,2015,(03):64-68.
WANG Huaji, ZHAO Hengzhu, WU Xinyue, et al. Study on the factors of the anisotropic friction of composite canister [J]. Missiles and Space Vehicles,2015, (03):64-68
[29] Das A, Kothari V K, Vandana N. A study on frictional characteristics of woven fabrics[J]. Autex Research Journal, 2005, 5(3).
[30] Dasa A, Kothari V K, Nagaraju V. Frictional characteristics of woven suiting and shirting fabrics[J]. Indian Journal of Fiber & Textile Research, 2007, 32(3):337-343.
[31] Speakman J B, Stott E. A contribution to the theory of milling Part I–A method for measuring the scaliness of wool fibers[J]. J. Text. Inst, 1931, 22: 339-348.
[32] 翟亚丽,张一风.织物表面静摩擦系数测定仪的研制[J].纺织器材,2006,(02):26-29.
ZHAI Yali, ZHANG Yifeng. Development of the friction factor determiner on the fabric surface [J]. Textile Accessories, 2006, (02):26-29.
[33] 任建,王正伟.用圆盘法测试织物表面摩擦性能的研究[J].纺织科技进展,2007,(06):23-24+27.
REN Jian, WANG Zhengwei. Testing frictional properties of fabric surface by a new disc method [J]. Process in Textile Science &Technology,2007, (06):23-24+27
[34] 孙博,王正伟. 织物表面粗糙度的摩擦测试法研究[J]. 纺织科技进展,2008,(06):50-51+53.
SUN Bo, WANG Zhengwei. Testing the roughness of fabric surface by a mechanical method[J]. Process in Textile Science &Technology,2008, (06):50-51+53.
[35] 任建.基于小波变换的旋转法检测织物摩擦性能的研究[D].东华大学,2008.
REN Jian. Measurement based on wavelet transform for testing fabric frictional properties by a rotating method [D]. Donghua University,2008.
[36] 孙博.力学角度测试织物表面粗糙度的方法研究[D].东华大学,2009.
SUN Bo. The study on testing the roughness of fabric surface by a mechanical method [D]. Donghua University,2009.
[37] 陈贵翠,张立峰,孙博.机织物表面摩擦性能的测试方法研究[J]. 轻纺工业与技术,2010,39(06):47-49.
CHEN Guicui, ZHANG Lifeng, SUN Bo. Study on the testing method of the frictional performance of woven fabrics [J]. Qingfang Gongye yu Jishu,2010,39(06):47-49.
[38] 张立峰,陈贵翠.浅析织物表面摩擦性能的研究方法[J]. 山东纺织科技,2010,51(06):38-40.
ZHANG Lifeng, CHEN Guicui. Analysis of the research method of frictional properties of fabric surface [J]. Shangdong Fangzhi Keji,2010,51(06):38-40.
[39] 张立峰,孙博,陈贵翠.机织物表面摩擦性能的检测系统分析研究[J].轻纺工业与技术,2010,39(06):44-46.
ZHANG Lifeng, SUN Bo, CHEN Guicui. System analysis and study on the frictional performance of woven fabrics [J]. Qingfang Gongye yu Jishu,2010,39(06):44-46.
[40] Howell H G. 24—the general case of friction of a string round a cylinder[J]. Journal of the Textile Institute Transactions, 1953, 44(8-9): T359-T362.
[41] Budinski K G. Friction of plastic webs[J]. Tribology International, 2001, 34(9):625-633.
[42] Jung J H, Pan N, Kang T J. Capstan equation including bending rigidity and non-linear frictional behavior[J]. Mechanism & Machine Theory, 2008, 43(6):661-675.
[43] Jung J H, Pan N, Kang T J. Generalized capstan problem: bending rigidity, nonlinear friction, and extensibility effect[J]. Tribology International, 2008, 41(6): 524-534.
[44] Ramkumar S S, Shastri L, Tock R W, et al. Experimental study of the frictional properties of friction spun yarns[J]. Journal of applied polymer science, 2003, 88(10): 2450-2454.
[45] Waichiro Tsuji,黄南熏.用罗得氏法测量各种纤维的摩擦系数[J].国外纺织技术(化纤、染整、环境保护分册),1986,(02):16-20.
Waichiro Tsuji, HUANG Nanxun. The friction coefficient of various fibers was measured by Rhodes method [J]. Textile technology overseas, 1986, (.02):16-20.
[46] 俞盈山.玻璃纤维的摩擦及其对毛丝的影响[J].玻璃纤维,1981,(05):12-14.
YU Yingshan. Friction of glass fiber and its influence on yarn. Fiber Glass,1981, (05):12-14.
[47] 刘晓艳,陈美玉.高性能纤维的摩擦系数测试研究[J]. 中国纤检,2002,(06):43-45.
LIU Xiaoyan, CHEN Meiyu. Study on the friction coefficient of high performance fiber [J]. China fiber inspection,2002, (06):43-45.
[48] Lang J, Zhu S, Pan N. Frictional behavior of synthetic yarns during processing[J]. Textile research journal, 2003, 73(12): 1071-1078.
[49] Svetnickien? V, ?iukas R, ?iukas R. Investigation of friction properties of yarns from natural fibers[J]. Mechanics, 2009, 75(1): 73-77.
[50] Kuhm D, Bueno M A, Knittel D. Fabric friction behavior: study using capstan equation and introduction into a fabric transport simulator[J]. Textile Research Journal, 2014, 84(10):1070-1083.
[51] 朱凡凡,卢雨正,郭明瑞,等.涤纶赛络集聚纱摩擦性能研究[J].棉纺织技术,2017,45(01):35-39.
ZHU Fanfan, LU Yuzheng, GUO Mingrui, et al. Friction properties research of polyester siro condensed yarn [J]. Cotton Textile Technology,2017,45(01):35-39.
[52] Roselman I C, Tabor D. The friction and wear of individual carbon fibers[J]. Journal of Physics D: Applied Physics, 1977, 10(8): 1181.
[53] Robins M M, Rennell R W, Arnell R D. The friction of polyester textile fibers[J]. Journal of Physics D: Applied Physics, 1984, 17(7): 1349.
[54] 刘金云.玻璃纤维与钢的摩擦[J].玻璃纤维,1989,(03):8-11.
LIU Jinyun. Friction between glass fiber and steel [J]. Fiber Glass,1989, (03):8-11.
[55] Cornelissen B, Rietman B, Akkerman R. Frictional behaviour of high performance fibrous tows: Friction experiments[J]. Composites Part A: Applied science and manufacturing, 2013, 44: 95-104.
[56] Nikonova E A, Pakshver A B. The friction properties of textile yarns[J]. Fibre Chemistry, 1973, 4(6): 657-660.
[57] Chakladar N D, Mandal P, Potluri P. Effects of inter-tow angle and tow size on carbon fiber friction[J]. Composites Part A: Applied Science and Manufacturing, 2014, 65: 115-124.
[58] 刘晓明,蒋金华,陈南梁,等.玻璃纤维纱线的摩擦性能及其影响因素的研究[J].产业用纺织品,2008, (02):28-32.
LIU xiaoming, JIANG Jinhua, CHEN Nanliang, et al. Study of friction and wear of glass fiber yarn and its influencing factors [J]. Technical Textiles, 2008, (02):28-32.
[59] Bedez Ute T. A comparative study between the dynamic friction characteristics of compact and siro yarns[J]. Journal of Textile & Apparel/Tekstil ve Konfeksiyon, 2016, 26(1).
[60] 聂春岭.玻璃纤维生产中导纱材料的选择[J].玻璃纤维,2006,(05):19-21.
NIE Chunling. Selection of yarn guide material in glass fiber production [J]. Fiber Glass, 2006, (05):16-20.
[61] 川端季雄,诸冈英雄,吕为民.关于纱线的摩擦特性的研究[J].浙丝科技,1980,(01):48-54.
Sueo Kawabata, Hero Morooka, LV Weimin. Study on friction characteristics of yarn [J]. ZHESIKEJI, 1980, (01):48-54.
[62] Gupta B S, El Mogahzy Y E. Friction in fibrous materials: part i: structural model[J]. Textile Research Journal, 1991, 61(9): 547-555.
[63] Cornelissen B, de Rooij M B, Rietman B, et al. Frictional behaviour of high performance fibrous tows: a contact mechanics model of tow–metal friction[J]. Wear, 2013, 305(1-2): 78-88.
[64] Cornelissen B, de Rooij M B, Rietman B, et al. Frictional behavior of carbon fiber tows: a contact mechanics model of tow–tow friction[J]. Textile research journal, 2014, 84(14): 1476-1488.
[65] Howell H G, Mazur J. Amontons' law and fiber friction[J]. Journal of the Textile Institute Transactions, 1953, 44(2): T59-T69.
[66] Yao B. Measurement system for characterizing surface friction properties of textile materials[J]. Proceedings of SPIE - The International Society for Optical Engineering, 2013, 8916(8):706-714.
[67] 高瑞强.基于CHES-FY系统的织物摩擦性能表征[D].东华大学,2014.
GAO Ruiqiang. Characterization of fabric friction performance by CHES-FY system [D]. Donghua University,2014.
[68] Mondal S, Reddy V, Sarkar A, et al. Effect of surface modification on frictional properties of polyester fabric[J]. Tribology International, 2016, 97:38-48.
[69] 陈韦态.湿度对弹性针织物摩擦系数的影响[J].国外丝绸,2009,24(06):8-9.
CHEN Weitai. Effect of humidity on friction coefficient of elastic knitted fabric [J]. Silk Textile Technology Overseas,2009,24(06):8-9.
[70] 李辉,杜建华,王浩旭,等.碳纤维织物增强树脂基摩擦材料摩擦学性能研究[J]功能材料,2017,48 (04):4100-4104.
LI Hui, DU Jianhua, WANG Haoxu, et al. Research of tribological characteristics of resin matrix composites reinforced by woven fabric of carbon fiber [J]. Journal of Frictional Materials, 2017,48(04):4100-4104.
[71] Du Z, Yu W. A comprehensive handle evaluation system for fabrics: II. Theoretical analyses and modeling of friction and tensile properties[J]. Measurement Science & Technology, 2007, 18(11):3555-3564.
[72] Baussan E, Bueno M A, Rossi R M, et al. Experiments and modelling of skin-knitted fabric friction[J]. Wear, 2010, 268(9–10):1103-1110.
[73] 姚宝国,张德品,闫丽霞,等.织物表面摩擦特性测试装置及试验研究[J].摩擦学学报,2016,36(06):769-775.
YAO Baoguo, ZHANG Depin, YAN Lixia, et al. A measurement apparatus and evaluation for surface friction properties of fabrics [J]. Tribology,2016,36(06):769-775.
[74] Sun F, Gao R, Hu X, et al. Experimental study on an effective method for the friction property of fabrics by the comprehensive handle evaluation system for fabrics and yarns system[J]. Textile Research Journal, 2017:0040517517690625.
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[1] . [J]. JOURNAL OF TEXTILE RESEARCH, 2000, 21(02): 29 -31 .
[2] . [J]. JOURNAL OF TEXTILE RESEARCH, 1982, 3(09): 24 .
[3] . [J]. JOURNAL OF TEXTILE RESEARCH, 1985, 6(10): 39 -40 .
[4] . [J]. JOURNAL OF TEXTILE RESEARCH, 2002, 23(04): 51 -52 .
[5] . [J]. JOURNAL OF TEXTILE RESEARCH, 1985, 6(01): 37 -38 .
[6] . [J]. JOURNAL OF TEXTILE RESEARCH, 1995, 16(04): 45 -46 .
[7] . [J]. JOURNAL OF TEXTILE RESEARCH, 1998, 19(04): 49 -52 .
[8] XIN Guohong;JIANG Gaoming;MIAO Xuhong. Transitional design of multi-bar Raschel lace[J]. JOURNAL OF TEXTILE RESEARCH, 2010, 31(1): 53 -57 .
[9] . [J]. JOURNAL OF TEXTILE RESEARCH, 1990, 11(04): 33 -36 .
[10] . [J]. JOURNAL OF TEXTILE RESEARCH, 1990, 11(05): 9 -12 .
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