Document Type : Review Article
Authors
- Neha Agrawal 1, 2, 3, 4
- Manu Aggarwal 3
- Debmalya Roy 3
- Kingsuk Mukhopadhyay 3
- Arup R. Bhattacharya 1
1 Department of Metallurgical Engineering and Material Science, Indian Institute of Technology, Mumbai, Powai, 400076, India
2 Defence Institute of Physiology and Allied Science, New Delhi 110054, India
3 Defence Materials, Stores, Research and Development Establishment, Kanpur 208013, India
4 Adv. Mater. Proc., 2018, 3 (7), 433-442
Abstract
This review article focuses on the micro-fibrillar fiber origin, its importance and its traditional methods of preparation. Further the different factors which effect the properties of microfiber are being summarized over here. The effect of viscosity ratio, compatibilzer role as constituents are highlighted in the view to point out there importance in microfiber formation. Also the two most common and easily controllable processing factors: draw ratio and drawing temperature are studied over here which governs the structure, crystallinity and conductivity of the fiber. The review covers the CNTs based microfibers being researched so far describing the factors effecting the properties of the fiber and hence correlating the traditional method of fiber formation with incorporation of modern concept of nanotechnology to form high performance micro-fibrillar fiber. Copyright © 2018 VBRI Press.
Keywords
J. Mater. Sci. 2009, 44,6213.
2.Synthetic Polymer–Polymer Composites (Eds: D. Bhattacharyya,
S. Fakirov), Hanser, Munich 2012
3.D. W. Schaefer, R. S. Justice, Macromolecules 2007, 40, 8501.
4.Azadeh Soroudi, Mikael Skrifvars , Journal ofApplied Polymer
Science, 2011, 119,2800.
5.Kikutani, I, Radhakrishnan, J., Arikawa, S., Takaku, A., Okui,
N., Jin, N., Niwa, F., Kudo, Y., J.Appl.Pol.Sci., 1996, 62,1913.
6.Khatwani PA, Yardi SS. Man-Made Textile in India,2003,46,
19.
7.Morgan, D,Hoechst Celanese, Charlotte, NC, Inda Journal of
Nonwovens Research,1992, 4,4.
8.B.P. 1083008, Kanegafuchi Boseki
9.Curran, G.: “Bicomponent Extrusion of Ceramic Fibers,
Advanced Materials and Processes”, 1/95, 25.
10.NA.P. 65-09283, A.K.U.
11.Satish Kumar, Kishor Gupta, An-Ting Chien,; Functional
polymer -polymer/carbon nanotubebi-component fibersNTC
project No M10-GT02
12.Mcroscopic fibers of Single Wall Carbon Nanotubes;Vergina A
Davis and Matteo Pasquali
13.A Text Book of Manufactured FiberTechnology;V.B. Gupta and
V.K. Kothari
14.Haggenmueller, R., H.H. Gommans, A.G. Rinzler, J.E. Fischer,
andK.I. Winey; Chemical Physics Letters;2000,330(3-4),219.
15.Meng, Q.H. and J.F. Hu;Composites Parta-AppliedScience and
Manufacturing, 2008, 39(2),314.
16.Shen, L.M., X.S. Gao, Y. Tong, A. Yeh, R.X. Li, and D.C.
Wu,Journal of Applied Polymer Science;2008, 108(5), 2865.
17.Meng, Q.H., J.L. Hu, and Y. Zhu,Journal of Applied Polymer
Science.2007, 106(2),837.
18.Coleman, J.N., U. Khan, W.J. Blau, and Y.K. Gun'ko,Carbon;
2006, 44(9),1624.
19.Vigolo, B., A. Penicaud, C. Coulon, C. Sauder, R. Pailler,
C. Journet, P. Bernier, and P. Poulin,2000, 290(5495),1331.
20.Miaudet, P., S. Badaire, M. Maugey, A. Derre, V. Pichot, P.
Launois, P. Poulin, and C. Zakri,Nano Letters,2005, 5(11),
2212.
21.Kumar, S., T.D. Dang, F.E. Arnold, A.R. Bhattacharyya, B.G.
Min, X.F. Zhang, R.A. Vaia, C. Park, W.W. Adams, R.H. Hauge,
R.E. Smalley, S. Ramesh, and P.A. Willis; Macromolecules,
2002, 35(24),9039.
22.Mottaghitalab, V., B.B. Xi, G.M. Spinks, and G.G.
Wallace,Synthetic Metals;2006,156(11-13),796.
23.SGKumbar,RJames,SPNukavarapuandCTLaurencin,IOP,
2008,3(3),8.
24.W.J. Morton Method of Dispersing Fluids, 691 (1902) US Patent
705.
25.J. Doshi, D.H. Reneker,J. Electrostat.,1995, 35,151.
26.Ko, F., Y. Gogotsi, A. Ali, N. Naguib, H.H. Ye, G.L. Yang, C.
Li, and P. Willis,Advanced Materials, 2003, 15(14),1161.
27.Sen, R., B. Zhao, D. Perea, M.E. Itkis, H. Hu, J. Love, E.
Bekyarova, and R.C. Haddon, NanoLetters,2004, 4(3),459.
28.Kim, G.M., G.H. Michler, and P. Potschke,Polymer,2005,
46(18),7346.
29.McCullen, S.D., K.L. Stano, D.R. Stevens, W.A. Roberts, N.A.
Monteiro-Riviere, L.I. Clarke, and R.E. Gorga, Journal of
Applied Polymer Science, 2007,105(3),1668.
30.Meng, J., H. Kong, Z.Z. Han, C.Y. Wang, G.J. Zhu, S.S. Xie, and
H.Y. Xu,Journal of Biomedical Materials Research Part A.,
2008.
31.WeiLi,FujunXu, LijunSun,WeiLiu, YipingQiu;Sensorsand
ActuatorsB:2016,230,528.
32.AdavanKiliyankilVipin, BunshiFugetsu,IchiroSakata, Hideki
Tanaka, LingSun, ShunitzTanaka, MauricioTerrones; Carbon,
2016,101,377.
33.PengLiu,ThangQ.Tran,ZengFan, HaiM.Duong; Composites
ScienceandTechnology;2015,117,114.
34.KenichiHayashida,YorikoMatsuoka; Carbon; 2015, 85,363.
35.Yaodong LiuandSatish Kumar; ACS Appl. Mater.
Interfaces,2014,6(9),6069.
36.YaoGao,Gui-yingZong,Hong-weiBai,QiangFu;Chinese
JournalofPolymerScience,2014,32,2,245.
37.SaraCravanzola,GalipHaznedar,DomenicaScarano,Adriano
Zecchina,FedericoCesano; Carbon;2013,62,270.
38.RuiZhang,HuaDeng,RenataValenca,JunhongJin,Qiang
Fu,EmilianoBilotti, TonPeijs; CompositesScienceand
Technology; 2013,74, 24 1.
39.Corey A. Hewitt,Alan B. Kaiser,Siegmar Roth,Matt
Craps,Richard Czerw, andDavid L. Carroll; Nano Lett.,
2012,12(3),1307.
40.PrabhatAgnihotri,SumitBasu,K.K.Kar; Carbon,2011,49,9,
3098.
41.PetraPötschke,TimoAndres,TobiasVillmow,Sven
Pegel,HaraldBrünig,KazufumiKobashi, DieterFischer,Liane
Häussler; CompositesScienceandTechnology,2010,70,2, 343.
42.ZhiqiShen,StuartBateman,DongYangWu,Patrick
McMahon,MelDell’Olio,JanuarGotamaCompositesScience
andTechnology,2009, 69,2, 239.
43.HanGiChae,YoungHoChoi,MarilynL.Minus,SatishKumar;
CompositesScienceandTechnology, 2009, 69,3–4, 406.
44.M. Evstatiev, S. Fakirov, Polymer,1992,33,877.
45.S. Fakirov, M. Evstatiev, S. Petrovich, Microfibrillar
Macromolecules,1993,26,5219.
46.S. Fakirov, M. Evstatiev, Adv. Mat,1994,6,395.
47.S.M. Aharoni, Intern. J. Polymeric Mater,1997, 38,173.
48.Pankaj B. Tambe, Arup R. Bhattacharyya, Srikanth S. Kamath,
Ajit R. Kulkarni, T.V. Sreekumar, Anurag Srivastav, K.U.
Bhasker Rao, Yaodong Liu and Satish Kumar, Polymer
engineering and Science,2012,52(6),1183.
49.Ihm, D.W.; Hiltner, A.; Baer, E. Microfiber systems-Areview.
In High Performance Polymers; Baer, E., Moet, A., Eds.; Hanser:
Munich, 1991; 280.
50.S. M. Panamoottil, P. Pötschke, R. J. T. Lin, D. Bhattacharyya,
S. Fakirov, eXPRESS Polymer Letters, 2013,7, 607.
51.Fakirov S., Bhattacharyya D., Lin R.J. T., Fuchs C., Friedrich
K., Journal of Macromolecular Science Part B: Physics,2007,
46,183.
52.W. Steinmann, S. Walter, M. Beckers, G. Seideand T. Gries ;
Thermal Analysis of Phase Transitions and Crystallization in
Polymeric Fibers.
53.P. Kim, L. Shi, A.Majumdar, P.L.McEuen,Phys Rev Lett, 2001,
87,2155021
54.K.T.Lau, D.Hui,Composites Part B, 2002, 33,263.
55.B.G.Demczyk, Y.M.Wang, J.Cumings, M.Hetman, W.Han,
A.Zettl,Mater Sci Eng, 2002, A334,173.
56.Yaodong LiuandSatish Kumar; ACS Appl. Mater.
Interfaces,2014,6(9), 6069.
57.Beltwide Cotton Conferences,San Antonio, Texas -January 3-6,
2006.
58.Ziabicki, A. Fundamentals of FiberFormation; Wiley: London,
1976.
59.Joyita Banerjee, Ajay S. Panwar, Kingsuk Mukhopadhyay, A. K.
Saxena and Arup R. BhattacharyyaPhys. Chem. Chem. Phys.,
2015,17, 25365.
60.Sertan Yesil, Ozcan Koysur en, Goknur Bayram Polymer
Engineering and Science, 2010
61.X.B. Xu, Z.M. Li, R.Z. Yu, A. Lu, M.B. Yang, and R. Huang,
Macromol. Mat. Eng,2004, 289,568.
62.Olaf M, Dirk K, Hans W, Christian F, Marc V, Holger W.
Polymer2004,45(3), 739.
63.Zhong-Ming Li, Sha-Ni Li, Ming-Bo Yang, Rui Huang Carbon,
2005,43,2397.
)