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Latest Developments on Crease Resistance Processes for Cellulosic Fabrics

Year 2015, Volume 21, Issue 7, 296 - 305, 02.01.2016

Abstract

Cellulosic fabrics generally exhibit tendency to crease during usage, laundering and drying processes and this fact leads to deformation in the appearance properties of these fabrics. This problem can be eliminated by crease resistance finishing process. For this aim, various chemical finishing materials have been used, however; they may not find broad usage area due to their uneconomical, unecological nature and their damage to physical properties of fabrics while conferring anti-creasing performance. Thereby, there is still demand and need for related studies and suggestions. In this review study, development of the crease resistance processes for cellulosic fabrics from past to present, encountered problems and new approaches to solve these problems have been explored and examined. In addition to these, test methods to evaluate crease resistance have been discussed.

References

  • Needles HL. Textile Fibers, Dyes, Finishes, and Processes, A Concise Guide. 1st ed. New Jersey, USA, Noyes, 1986.
  • Carty P, Byrne MS. The Chemical and Mechanical Finishing of Textile Materials. 2nd ed. Newcastle, UK, Newcastle upon Tyne Polytechnic Products Ltd, 1991.
  • Sharpe G, Mallinson P. Easy-Care Finishing of Cellulosics. Editor: Heywood D. Textile Finishing, 337-350, Society of Dyers and Colourists, Hampshire, UK, 2003
  • Kim E, Csiszar E. “Chemical Finishing of Linen and Ramie Fabrics”. Journal of Natural Fibers, 2(3), 39-52, 2005.
  • Tavcer PF, Kosir S, Csiszar E. “Properties of Differently Printed and Easy-Care Finished Linen Fabrics”. Coloration Technology, 127(3), 194-199, 2011.
  • Dalbaşı ES, Çoban S, Bahtiyari Mİ. “An Optimization Study on Crosslinking of Linen and Cotton Fabrics”. Industria Textila, 64(5), 235-240, 2013.
  • Perkins WS. Textile Coloration and Finishing. 1st ed. North Carolina, USA, Carolina Academic Press, 1996.
  • Parker J. All About Cotton: A fabric Dictionary and Swatchbook. Fabric Reference Series 2nd Vol. Seattle, USA, Rain City Publishing, 1998.
  • Harmon S. “Project Cotton, Cotton Classroom, Appearance Retention Properties of Cotton”. Department of Textile and Apparel Management University of Missouri, 2008. http://cotton.missouri.edu/Classroom-Appearance.html (28.03.2014).
  • Fibre2fashion. “Wrinkle resistant cotton fabrics”. http://www.fibre2fashion.com/industryarticle/13/1284 /wrinkle-resistant-cotton-fabrics1.asp (30.07.2008).
  • Herekeli.com - Herekelilerin Buluşma Noktası. “Hereke Masalı”. http://www.herekeli.com/tr (28.03.2014).
  • Metod Makina San. ve Tic. Ltd. Şti. “Krinkıl Efekt Makinaları”. http://www.metodmakina.com/krinkilefekt-makinasi.html (28.03.2014).
  • Fiscus G, Grunenwald D. Textile Finishing, A Complete Guide. 1st ed. Sausheim, France, Editions High Textil, 1995.
  • Bilgen M. Wrinkle Recovery for Cellulosic Fabric by Means of Ionic Crosslinking. MSc Thesis, Graduate Faculty of North Carolina State University, North Carolina, USA, 2005.
  • Ammayappan L, Nayak LK, Ray DP, Das S, Roy, AK. “Functional Finishing of Jute Textiles-An Overview in India”. Journal of Natural Fibers, 10(4), 390-413, 2013.
  • Tegewa, “FCI Fonds der Chemischen Industrie, Informationsserie Textilchemie”. https://www.vci.de/vci/downloads-vci/publikation /textilchemie-textheft.pdf (27.03.2014).
  • Hill DJ, Hall ME, Holmes DA, Lomas M, Padmore K. An Introduction to Textiles, Volume IV, Textile Wet Processing. Bolton, UK, Comett Eurotex, 1993.
  • Lacasse K, Baumann W. Textile Chemicals, Environmental Data and Facts. 1st ed. Heidelberg, Germany, Springer, 2004.
  • Zhou W, Yang CQ, Lickfield GC. “Mechanical Strength of Durable Press Finished Cotton Fabric Part V: Poly (vinyl alcohol) as an Additive to Improve Fabric Abrasion Resistance”. Journal of Applied Polymer Science, 91(6), 3940-3946, 2004.
  • Harifi T, Montazer M. “Past, Present and Future Prospects of Cotton Cross-linking: New Insight into Nanoparticles”. Carbohydrate Polymers, 88(4), 1125-1140, 2012.
  • Eligible Magazine. “Wrinkled Clothes”. http://www.eligiblemagazine.com/wp-content/uploads /2012/08/WrinkledClothes1.jpg (28.03.2014).
  • Das S. “Important Aspects of Wrinkle Free Finish”. Asian Dyer, June-July, 39-42, 2013.
  • Gürsoy NÇ, Armağan OG, Şahin UK, Gül M. “Farklı Ön Terbiye İşlemlerinin Buruşmaz Kumaş Performansına Etkileri”. Tekstil ve Konfeksiyon, 20(4), 336-342, 2010.
  • Çoban S. Genel Tekstil Terbiyesi ve Bitim İşlemleri. 1. Baskı. İzmir, Türkiye, E.Ü. Tekstil ve Konfeksiyon Araştırma-Uygulama Merkezi, Yayın No: 10, 1999.
  • Hashem M, Elshakankery MH, Abd El-Aziz SM, Fouda MMG, Fahmy, HM. “Improving Easy Care Properties of Cotton Fabric via Dual Effect of Ester and Ionic Crosslinking”. Carbohydrate Polymers, 86(4), 1692-1698, 2011.
  • Arik B. Kitosanın Farklı Aplikasyon Yöntemleri Uygulanarak Medikal Tekstillerde Kullanılabilirliğinin Araştırılması. Doktora Tezi, Ege Üniversitesi Fen Bilimleri Enstitüsü, İzmir, Türkiye, 2013.
  • Dehabadi VA, Buschmann HJ, Gutmann JS. “Study of Easy Care and Biostatic Properties of Finished Cotton Fabric with Polyamino Carboxylic Acids”. The Journal of the Textile Institute, 104(4), 414-418, 2013.
  • Bajaj P. “Finishing of Textile Materials”. Journal of Applied Polymer Science, 83(3), 631-659, 2002.
  • Dehabadi VA, Buschmann HJ, Gutmann, JS. “Durable Press Finishing of Cotton Fabrics with Polyamino Carboxylic Acids”. Carbohydrate Polymers, 89(2), 558-563, 2012.
  • Tootal. “The Company History and its Products (ties, scarves etc) The Fedora Loungue”. http://www.thefedoralounge.com/showthread.php?647 30-Tootal-The-Company-History-and-its-products-(tiesscarves-etc) (28.03.2014).
  • İlk kim neyi buldu. “Buruşmaz Kumaşı Kim Buldu”. http://www.ilkkimbuldu.com/burusmaz-kumasi-kimbuldu (28.03.2014).
  • Elektromania.net. “İlk Buruşmaz Kumaş - Tarih Boyunca ilk icatlar.” http://www.elektromania.net/default.asp?tid =1117 (28.03.2014).
  • Schindler WD, Hauser, PJ. Chemical Finishing of Textiles. 1st ed. Cambridge, England, Woodhead Publishing Limited, 2004.
  • Hashem M, Refaie R, Hebeish A. “Crosslinking of Partially Carboxymethylated Cotton Fabric via Cationization”. Journal of Cleaner Production, 13(9), 947-954, 2005.
  • Fahmy HM, Abo-Shosha MH, Ibrahim NA. “Finishing of cotton fabrics with poly (N-vinyl-2-pyrrolidone) to Improve Their Performance and Antibacterial Properties”. Carbohydrate Polymers, 77(4), 845-850, 2009.
  • Yeqiu L, Jinlian H, Yong Z, Zhuohong Y. “Surface Modification of Cotton Fabric by Grafting of Polyurethane”. Carbohydrate Polymers, 61(3), 276-280, 2005.
  • Zhou LM, Yeung KW, Yuen CWM, Zhou X. “Effect of Mercerization on the Crosslinking of Ramie Fabric using 1,2,3,4-Butanetetracarboxylic Acid: Physical Properties and Crosslink Distribution”. Textile Research Journal, 72(9), 795-802, 2002.
  • Sauperl O, Stana-Kleinschek K. “Differences between Cotton and Viscose Fibers Crosslinked with BTCA”. Textile Research Journal, 80(4), 383-392, 2010.
  • Lam YL, Kan CW, Yuen, CWM. “Wrinkle-Resistant Finishing of Cotton Fabric with BTCA-the Effect of Co-Catalyst”. Textile Research Journal, 81(5), 482-493, 2010.
  • Hebeish A, Abdel-Mohdy FA, Fouda MMG, Elsaid Z, Essam S, Tammam GH, Drees EA. “Green Synthesis of Easy Care and Antimicrobial Cotton Fabrics”. Carbohydrate Polymers, 86(4), 1684-1691, 2011.
  • Fouda MMG, El Shafei A, Sharaf S, Hebeish A. “Microwave Curing for Producing Cotton Fabrics with Easy Care and Antibacterial Properties”. Carbohydrate Polymers, 77(3), 651-655, 2009.
  • Nazari A, Montazer M, Rashidi A, Yazdanshenas M, AnaryAbbasinejad M. “Nano TiO2 Photo-Catalyst and Sodium Hypophosphite for Cross-Linking Cotton with Poly Carboxylic Acids under UV and High Temperature”. Applied Catalysis A: General, 371(1-2), 10-16, 2009.
  • Hebeish A, Hashem M, Abdel-Rahman A, El-Hilw ZH. “Improving Easy Care Nonformaldehyde Finishing Performance using Polycarboxylic Acids via Precationization of Cotton Fabric”. Journal of Applied Polymer Science, 100(4), 2697-2704, 2006.
  • Schramm C, Binder WH, Tessadri R. “Durable Press Finishing of Cotton Fabric with 1,2,3,4Butanetetracarboxylic Acid and TEOS/GPTMS”. Journal of Sol-Gel Science and Technology, 29, 155-165, 2004.
  • Oh KW, Jung EJ, Choi H-M. “Nonformaldehyde Crease-Resistant Finishing of Ramie with Glyoxal in the Presence of a Swelling Agent”. Textile Research Journal, 71(3), 225-230, 2001.
  • Talebpour F, Holme I. “Effects of Silicone-Based Softener on the Easy-Care Finished Cotton Fabric”. Indian Journal of Fibre & Textile Research, 31(3), 444-449, 2006.
  • Li J, Feng J, Zhang H, Zhang J. “Wear Properties of Hemp, Ramie and Linen Fabrics After Liquid Ammonia/Crosslinking Treatment”. Fibres & Textiles in Eastern Europe, 18(5), 81-85, 2010.
  • Chattopadhyay SN, Pan NC, Roy AK, Khan A. “Finishing of Jute Fabric for Value-Added Products”. Journal of Natural Fibers, 7(3), 155-164, 2010.
  • Aly AS, Hashem A, Hussein SS. “Utilization of Chitosan Citrate as Crease-Resistant and Antimicrobial Finishing Agent for Cotton Fabric”. Indian Journal of Fibre & Textile Research, 29(2), 218-222, 2004.
  • Mostafa KhM, Samarkandy AR, El-Sanabary AA. “Using Persulfate Oxidized Chitosan as a Novel Additives in EasyCare Finishing for Cotton Textiles”. Polymer-Plastics Technology and Engineering, 48(2), 130-135, 2009.
  • Lam YL, Kan CW, Yuen CW. “Wrinkle-Resistant Finishing with Dimethyloldihydroxyethyleneurea (DMDHEU)-the Effect of Co-Catalyst”. Textile Research Journal, 81(14), 1419-1426, 2010.
  • Mohsin M, Carr CM, Rigout M. “Development of Zero Formaldehyde Easy Care Finishing System by Using Nano Titanium Dioxide with Citric Acid and Its Impact on Physical Properties”. Fibers and Polymers, 14(9), 1440-1444, 2013.
  • Yao W, Wang B, Ye T, Yang Y. “Durable Press Finishing of Cotton Fabrics with Citric Acid: Enhancement of Whiteness and Wrinkle Recovery by Polyol Extenders”. Industrial & Engineering Chemistry Research, 52(46), 16118-16127, 2013.
  • Blackburn RS, Abdullah I, Russell SJ, Taylor J. “Mechanism of Cross-linking of Tencel Woven Fabric for Superior EasyCare Properties and Analysis Using Fluorescence Microscopy”. Lenzinger Berichte, (85), 113-123, 2006.
  • Fahmy HM. “Utilization of Poly(N-vinyl-2-pyrrolidone) in Easy Care Finishing of Cotton Fabrics to Improve their Performance Properties and Antibacterial Activities”. Journal of Industrial Textiles, 39(2), 109-122, 2009.
  • Fahmy HM, Abdel-Halim ES. “Utilization of Poly (N-vinyl-2-pyrrolidone) to Enhance the Performance Properties as well as UV Protection of Ester Crosslinked Cotton Fabrics”. Journal of Industrial Textiles, 40(2), 109-121, 2010.
  • Fahmy HM, Eid RAA, Hashem SS, Amr A. “Enhancing Some Functional Properties of Viscose Fabric”. Carbohydrate Polymers, 92(2), 1539-1545, 2013.
  • Refai R, Hashem M, Hebeish A. “Inducing Durable Press in Ionically Crosslinked Cotton Fabric”. RJTA, 9(2), 47-63, 2005.
  • Hashem M, Ibrahim NA, El-Shafei A, Refaie R, Hauser P. “An Eco-Friendly-Novel Approach for Attaining Wrinkle-Free/Soft-Hand Cotton Fabric”. Carbohydrate Polymers, 78(4), 690-703, 2009.
  • Schramm C, Rinderer B, Binder WH, Tessadri R, Duelli H. “Treatment of 1,3-dimethylol-4, 5-dihydroxyimidazo Lidine-2-one Finished Cellulosic Material with Tetraethoxy Silane or GlycidyloxypropylTrimethoxysilane Solutions”. Journal of Materials Science, 40(8), 1883-1891, 2005.
  • Brzezinski S, Kowalczyk D, Borak B, Jasiorski M, Tracz A. “Applying the Sol-Gel Method to the Deposition of Nanocoats on Textiles to Improve Their Abrasion Resistance”. Journal of Applied Polymer Science, 125(4), 3058-3067, 2012.
  • Roe BG. Durable Non-Fluorine Water-Repellent Fabric Finishing: Surface Treatment using Silica Nanoparticulates and Mixed Silanes. MSc Thesis, Graduate Faculty of North Carolina State University, Raleigh, North Carolina, USA, 2008.
  • Kalia S, Kaith BS, Kaur I. “Pretreatments of Natural Fibers and their Application as Reinforcing Material in Polymer Composites-A Review”. Polymer Engineering & Science, 49(7), 1253-1272, 2009.
  • Xie Y, Hill CAS, Xiao Z, Militz H, Mai C. “Silane Coupling Agents Used for Natural Fiber/Polymer Composites: A Review”. Composites: Part A, 41(7), 806-819, 2010.
  • Pardo R, Zayat M, Levy D. “Photochromic Organic-Inorganic Hybrid Materials”. Chemical Society Reviews, 40, 672-687, 2011.
  • Huang KS, Nien YH, Hsiao KC, Chang YS. “Application of DMEU/SiO2 Gel Solution in the Antiwrinkle Finishing of Cotton Fabrics”. Journal of Applied Polymer Science, 102(5), 4136-4143, 2006.
  • Huang KS, Yang KL, Lin SJ, Lian WT. “Antiwrinkle Treatment of Cotton Fabric with a Mixed Sol of TEOS-TTB/DMDHEU”. Journal of Applied Polymer Science, 106(4), 2559-2564, 2007.
  • Huang KS, Hwang MC, Chen JS, Lin SJ, Wang SP. “Application of Mixed Gel Solution in the Anti-Wrinkle Finishing of Cotton Fabrics”. The Textile Institute, 98(2), 169-176, 2007.

Selülozik Kumaşların Buruşmazlık İşlemlerinde Son Gelişmeler

Year 2015, Volume 21, Issue 7, 296 - 305, 02.01.2016

Abstract

Selülozik kumaşlar, genellikle kullanım, yıkama ve kurutma işlemleri esnasında buruşma eğilimi göstermekte ve bu durum da görünüm özelliklerinin bozulmasına yol açmaktadır. Bu sorun, buruşmazlık bitim işlemi ile giderilebilmektedir. Bu amaçla pek çok kimyasal bitim işlemi maddeleri ile çalışılmaktaysa da bu kimyasallar ekonomik ve ekolojik olmamaları veya buruşmazlık sağlarken kumaşın fiziksel özelliklerine zarar vermeleri gibi sebeplerle geniş kullanım alanı bulamamaktadır. Dolayısıyla bu konudaki çalışmalara ve çözüm önerilerine halen ihtiyaç duyulmaktadır. Bu çalışmada, selülozik kumaşlarda uygulanan buruşmazlık işlemlerinin geçmişten günümüze olan gelişimi, karşılaşılan sorunlar ve bu sorunlara çözüm getirebileceği düşünülen yeni yaklaşımlar ele alınmaktadır. Ayrıca bu derleme çalışmasında buruşmazlık test yöntemlerinden de bahsedilmektedir.

References

  • Needles HL. Textile Fibers, Dyes, Finishes, and Processes, A Concise Guide. 1st ed. New Jersey, USA, Noyes, 1986.
  • Carty P, Byrne MS. The Chemical and Mechanical Finishing of Textile Materials. 2nd ed. Newcastle, UK, Newcastle upon Tyne Polytechnic Products Ltd, 1991.
  • Sharpe G, Mallinson P. Easy-Care Finishing of Cellulosics. Editor: Heywood D. Textile Finishing, 337-350, Society of Dyers and Colourists, Hampshire, UK, 2003
  • Kim E, Csiszar E. “Chemical Finishing of Linen and Ramie Fabrics”. Journal of Natural Fibers, 2(3), 39-52, 2005.
  • Tavcer PF, Kosir S, Csiszar E. “Properties of Differently Printed and Easy-Care Finished Linen Fabrics”. Coloration Technology, 127(3), 194-199, 2011.
  • Dalbaşı ES, Çoban S, Bahtiyari Mİ. “An Optimization Study on Crosslinking of Linen and Cotton Fabrics”. Industria Textila, 64(5), 235-240, 2013.
  • Perkins WS. Textile Coloration and Finishing. 1st ed. North Carolina, USA, Carolina Academic Press, 1996.
  • Parker J. All About Cotton: A fabric Dictionary and Swatchbook. Fabric Reference Series 2nd Vol. Seattle, USA, Rain City Publishing, 1998.
  • Harmon S. “Project Cotton, Cotton Classroom, Appearance Retention Properties of Cotton”. Department of Textile and Apparel Management University of Missouri, 2008. http://cotton.missouri.edu/Classroom-Appearance.html (28.03.2014).
  • Fibre2fashion. “Wrinkle resistant cotton fabrics”. http://www.fibre2fashion.com/industryarticle/13/1284 /wrinkle-resistant-cotton-fabrics1.asp (30.07.2008).
  • Herekeli.com - Herekelilerin Buluşma Noktası. “Hereke Masalı”. http://www.herekeli.com/tr (28.03.2014).
  • Metod Makina San. ve Tic. Ltd. Şti. “Krinkıl Efekt Makinaları”. http://www.metodmakina.com/krinkilefekt-makinasi.html (28.03.2014).
  • Fiscus G, Grunenwald D. Textile Finishing, A Complete Guide. 1st ed. Sausheim, France, Editions High Textil, 1995.
  • Bilgen M. Wrinkle Recovery for Cellulosic Fabric by Means of Ionic Crosslinking. MSc Thesis, Graduate Faculty of North Carolina State University, North Carolina, USA, 2005.
  • Ammayappan L, Nayak LK, Ray DP, Das S, Roy, AK. “Functional Finishing of Jute Textiles-An Overview in India”. Journal of Natural Fibers, 10(4), 390-413, 2013.
  • Tegewa, “FCI Fonds der Chemischen Industrie, Informationsserie Textilchemie”. https://www.vci.de/vci/downloads-vci/publikation /textilchemie-textheft.pdf (27.03.2014).
  • Hill DJ, Hall ME, Holmes DA, Lomas M, Padmore K. An Introduction to Textiles, Volume IV, Textile Wet Processing. Bolton, UK, Comett Eurotex, 1993.
  • Lacasse K, Baumann W. Textile Chemicals, Environmental Data and Facts. 1st ed. Heidelberg, Germany, Springer, 2004.
  • Zhou W, Yang CQ, Lickfield GC. “Mechanical Strength of Durable Press Finished Cotton Fabric Part V: Poly (vinyl alcohol) as an Additive to Improve Fabric Abrasion Resistance”. Journal of Applied Polymer Science, 91(6), 3940-3946, 2004.
  • Harifi T, Montazer M. “Past, Present and Future Prospects of Cotton Cross-linking: New Insight into Nanoparticles”. Carbohydrate Polymers, 88(4), 1125-1140, 2012.
  • Eligible Magazine. “Wrinkled Clothes”. http://www.eligiblemagazine.com/wp-content/uploads /2012/08/WrinkledClothes1.jpg (28.03.2014).
  • Das S. “Important Aspects of Wrinkle Free Finish”. Asian Dyer, June-July, 39-42, 2013.
  • Gürsoy NÇ, Armağan OG, Şahin UK, Gül M. “Farklı Ön Terbiye İşlemlerinin Buruşmaz Kumaş Performansına Etkileri”. Tekstil ve Konfeksiyon, 20(4), 336-342, 2010.
  • Çoban S. Genel Tekstil Terbiyesi ve Bitim İşlemleri. 1. Baskı. İzmir, Türkiye, E.Ü. Tekstil ve Konfeksiyon Araştırma-Uygulama Merkezi, Yayın No: 10, 1999.
  • Hashem M, Elshakankery MH, Abd El-Aziz SM, Fouda MMG, Fahmy, HM. “Improving Easy Care Properties of Cotton Fabric via Dual Effect of Ester and Ionic Crosslinking”. Carbohydrate Polymers, 86(4), 1692-1698, 2011.
  • Arik B. Kitosanın Farklı Aplikasyon Yöntemleri Uygulanarak Medikal Tekstillerde Kullanılabilirliğinin Araştırılması. Doktora Tezi, Ege Üniversitesi Fen Bilimleri Enstitüsü, İzmir, Türkiye, 2013.
  • Dehabadi VA, Buschmann HJ, Gutmann JS. “Study of Easy Care and Biostatic Properties of Finished Cotton Fabric with Polyamino Carboxylic Acids”. The Journal of the Textile Institute, 104(4), 414-418, 2013.
  • Bajaj P. “Finishing of Textile Materials”. Journal of Applied Polymer Science, 83(3), 631-659, 2002.
  • Dehabadi VA, Buschmann HJ, Gutmann, JS. “Durable Press Finishing of Cotton Fabrics with Polyamino Carboxylic Acids”. Carbohydrate Polymers, 89(2), 558-563, 2012.
  • Tootal. “The Company History and its Products (ties, scarves etc) The Fedora Loungue”. http://www.thefedoralounge.com/showthread.php?647 30-Tootal-The-Company-History-and-its-products-(tiesscarves-etc) (28.03.2014).
  • İlk kim neyi buldu. “Buruşmaz Kumaşı Kim Buldu”. http://www.ilkkimbuldu.com/burusmaz-kumasi-kimbuldu (28.03.2014).
  • Elektromania.net. “İlk Buruşmaz Kumaş - Tarih Boyunca ilk icatlar.” http://www.elektromania.net/default.asp?tid =1117 (28.03.2014).
  • Schindler WD, Hauser, PJ. Chemical Finishing of Textiles. 1st ed. Cambridge, England, Woodhead Publishing Limited, 2004.
  • Hashem M, Refaie R, Hebeish A. “Crosslinking of Partially Carboxymethylated Cotton Fabric via Cationization”. Journal of Cleaner Production, 13(9), 947-954, 2005.
  • Fahmy HM, Abo-Shosha MH, Ibrahim NA. “Finishing of cotton fabrics with poly (N-vinyl-2-pyrrolidone) to Improve Their Performance and Antibacterial Properties”. Carbohydrate Polymers, 77(4), 845-850, 2009.
  • Yeqiu L, Jinlian H, Yong Z, Zhuohong Y. “Surface Modification of Cotton Fabric by Grafting of Polyurethane”. Carbohydrate Polymers, 61(3), 276-280, 2005.
  • Zhou LM, Yeung KW, Yuen CWM, Zhou X. “Effect of Mercerization on the Crosslinking of Ramie Fabric using 1,2,3,4-Butanetetracarboxylic Acid: Physical Properties and Crosslink Distribution”. Textile Research Journal, 72(9), 795-802, 2002.
  • Sauperl O, Stana-Kleinschek K. “Differences between Cotton and Viscose Fibers Crosslinked with BTCA”. Textile Research Journal, 80(4), 383-392, 2010.
  • Lam YL, Kan CW, Yuen, CWM. “Wrinkle-Resistant Finishing of Cotton Fabric with BTCA-the Effect of Co-Catalyst”. Textile Research Journal, 81(5), 482-493, 2010.
  • Hebeish A, Abdel-Mohdy FA, Fouda MMG, Elsaid Z, Essam S, Tammam GH, Drees EA. “Green Synthesis of Easy Care and Antimicrobial Cotton Fabrics”. Carbohydrate Polymers, 86(4), 1684-1691, 2011.
  • Fouda MMG, El Shafei A, Sharaf S, Hebeish A. “Microwave Curing for Producing Cotton Fabrics with Easy Care and Antibacterial Properties”. Carbohydrate Polymers, 77(3), 651-655, 2009.
  • Nazari A, Montazer M, Rashidi A, Yazdanshenas M, AnaryAbbasinejad M. “Nano TiO2 Photo-Catalyst and Sodium Hypophosphite for Cross-Linking Cotton with Poly Carboxylic Acids under UV and High Temperature”. Applied Catalysis A: General, 371(1-2), 10-16, 2009.
  • Hebeish A, Hashem M, Abdel-Rahman A, El-Hilw ZH. “Improving Easy Care Nonformaldehyde Finishing Performance using Polycarboxylic Acids via Precationization of Cotton Fabric”. Journal of Applied Polymer Science, 100(4), 2697-2704, 2006.
  • Schramm C, Binder WH, Tessadri R. “Durable Press Finishing of Cotton Fabric with 1,2,3,4Butanetetracarboxylic Acid and TEOS/GPTMS”. Journal of Sol-Gel Science and Technology, 29, 155-165, 2004.
  • Oh KW, Jung EJ, Choi H-M. “Nonformaldehyde Crease-Resistant Finishing of Ramie with Glyoxal in the Presence of a Swelling Agent”. Textile Research Journal, 71(3), 225-230, 2001.
  • Talebpour F, Holme I. “Effects of Silicone-Based Softener on the Easy-Care Finished Cotton Fabric”. Indian Journal of Fibre & Textile Research, 31(3), 444-449, 2006.
  • Li J, Feng J, Zhang H, Zhang J. “Wear Properties of Hemp, Ramie and Linen Fabrics After Liquid Ammonia/Crosslinking Treatment”. Fibres & Textiles in Eastern Europe, 18(5), 81-85, 2010.
  • Chattopadhyay SN, Pan NC, Roy AK, Khan A. “Finishing of Jute Fabric for Value-Added Products”. Journal of Natural Fibers, 7(3), 155-164, 2010.
  • Aly AS, Hashem A, Hussein SS. “Utilization of Chitosan Citrate as Crease-Resistant and Antimicrobial Finishing Agent for Cotton Fabric”. Indian Journal of Fibre & Textile Research, 29(2), 218-222, 2004.
  • Mostafa KhM, Samarkandy AR, El-Sanabary AA. “Using Persulfate Oxidized Chitosan as a Novel Additives in EasyCare Finishing for Cotton Textiles”. Polymer-Plastics Technology and Engineering, 48(2), 130-135, 2009.
  • Lam YL, Kan CW, Yuen CW. “Wrinkle-Resistant Finishing with Dimethyloldihydroxyethyleneurea (DMDHEU)-the Effect of Co-Catalyst”. Textile Research Journal, 81(14), 1419-1426, 2010.
  • Mohsin M, Carr CM, Rigout M. “Development of Zero Formaldehyde Easy Care Finishing System by Using Nano Titanium Dioxide with Citric Acid and Its Impact on Physical Properties”. Fibers and Polymers, 14(9), 1440-1444, 2013.
  • Yao W, Wang B, Ye T, Yang Y. “Durable Press Finishing of Cotton Fabrics with Citric Acid: Enhancement of Whiteness and Wrinkle Recovery by Polyol Extenders”. Industrial & Engineering Chemistry Research, 52(46), 16118-16127, 2013.
  • Blackburn RS, Abdullah I, Russell SJ, Taylor J. “Mechanism of Cross-linking of Tencel Woven Fabric for Superior EasyCare Properties and Analysis Using Fluorescence Microscopy”. Lenzinger Berichte, (85), 113-123, 2006.
  • Fahmy HM. “Utilization of Poly(N-vinyl-2-pyrrolidone) in Easy Care Finishing of Cotton Fabrics to Improve their Performance Properties and Antibacterial Activities”. Journal of Industrial Textiles, 39(2), 109-122, 2009.
  • Fahmy HM, Abdel-Halim ES. “Utilization of Poly (N-vinyl-2-pyrrolidone) to Enhance the Performance Properties as well as UV Protection of Ester Crosslinked Cotton Fabrics”. Journal of Industrial Textiles, 40(2), 109-121, 2010.
  • Fahmy HM, Eid RAA, Hashem SS, Amr A. “Enhancing Some Functional Properties of Viscose Fabric”. Carbohydrate Polymers, 92(2), 1539-1545, 2013.
  • Refai R, Hashem M, Hebeish A. “Inducing Durable Press in Ionically Crosslinked Cotton Fabric”. RJTA, 9(2), 47-63, 2005.
  • Hashem M, Ibrahim NA, El-Shafei A, Refaie R, Hauser P. “An Eco-Friendly-Novel Approach for Attaining Wrinkle-Free/Soft-Hand Cotton Fabric”. Carbohydrate Polymers, 78(4), 690-703, 2009.
  • Schramm C, Rinderer B, Binder WH, Tessadri R, Duelli H. “Treatment of 1,3-dimethylol-4, 5-dihydroxyimidazo Lidine-2-one Finished Cellulosic Material with Tetraethoxy Silane or GlycidyloxypropylTrimethoxysilane Solutions”. Journal of Materials Science, 40(8), 1883-1891, 2005.
  • Brzezinski S, Kowalczyk D, Borak B, Jasiorski M, Tracz A. “Applying the Sol-Gel Method to the Deposition of Nanocoats on Textiles to Improve Their Abrasion Resistance”. Journal of Applied Polymer Science, 125(4), 3058-3067, 2012.
  • Roe BG. Durable Non-Fluorine Water-Repellent Fabric Finishing: Surface Treatment using Silica Nanoparticulates and Mixed Silanes. MSc Thesis, Graduate Faculty of North Carolina State University, Raleigh, North Carolina, USA, 2008.
  • Kalia S, Kaith BS, Kaur I. “Pretreatments of Natural Fibers and their Application as Reinforcing Material in Polymer Composites-A Review”. Polymer Engineering & Science, 49(7), 1253-1272, 2009.
  • Xie Y, Hill CAS, Xiao Z, Militz H, Mai C. “Silane Coupling Agents Used for Natural Fiber/Polymer Composites: A Review”. Composites: Part A, 41(7), 806-819, 2010.
  • Pardo R, Zayat M, Levy D. “Photochromic Organic-Inorganic Hybrid Materials”. Chemical Society Reviews, 40, 672-687, 2011.
  • Huang KS, Nien YH, Hsiao KC, Chang YS. “Application of DMEU/SiO2 Gel Solution in the Antiwrinkle Finishing of Cotton Fabrics”. Journal of Applied Polymer Science, 102(5), 4136-4143, 2006.
  • Huang KS, Yang KL, Lin SJ, Lian WT. “Antiwrinkle Treatment of Cotton Fabric with a Mixed Sol of TEOS-TTB/DMDHEU”. Journal of Applied Polymer Science, 106(4), 2559-2564, 2007.
  • Huang KS, Hwang MC, Chen JS, Lin SJ, Wang SP. “Application of Mixed Gel Solution in the Anti-Wrinkle Finishing of Cotton Fabrics”. The Textile Institute, 98(2), 169-176, 2007.

Details

Primary Language English
Journal Section Review Article
Authors

Buket ARIK>

0000-0003-0647-5851

Publication Date January 2, 2016
Published in Issue Year 2015, Volume 21, Issue 7

Cite

Bibtex @ { pajes219135, journal = {Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi}, issn = {1300-7009}, eissn = {2147-5881}, address = {}, publisher = {Pamukkale University}, year = {2016}, volume = {21}, number = {7}, pages = {296 - 305}, title = {Latest Developments on Crease Resistance Processes for Cellulosic Fabrics}, key = {cite}, author = {Arık, Buket} }
APA Arık, B. (2016). Latest Developments on Crease Resistance Processes for Cellulosic Fabrics . Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi , 21 (7) , 296-305 . Retrieved from https://dergipark.org.tr/en/pub/pajes/issue/20562/219135
MLA Arık, B. "Latest Developments on Crease Resistance Processes for Cellulosic Fabrics" . Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 21 (2016 ): 296-305 <https://dergipark.org.tr/en/pub/pajes/issue/20562/219135>
Chicago Arık, B. "Latest Developments on Crease Resistance Processes for Cellulosic Fabrics". Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 21 (2016 ): 296-305
RIS TY - JOUR T1 - Latest Developments on Crease Resistance Processes for Cellulosic Fabrics AU - Buket Arık Y1 - 2016 PY - 2016 N1 - DO - T2 - Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi JF - Journal JO - JOR SP - 296 EP - 305 VL - 21 IS - 7 SN - 1300-7009-2147-5881 M3 - UR - Y2 - 2022 ER -
EndNote %0 Pamukkale University Journal of Engineering Sciences Latest Developments on Crease Resistance Processes for Cellulosic Fabrics %A Buket Arık %T Latest Developments on Crease Resistance Processes for Cellulosic Fabrics %D 2016 %J Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi %P 1300-7009-2147-5881 %V 21 %N 7 %R %U
ISNAD Arık, Buket . "Latest Developments on Crease Resistance Processes for Cellulosic Fabrics". Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 21 / 7 (January 2016): 296-305 .
AMA Arık B. Latest Developments on Crease Resistance Processes for Cellulosic Fabrics. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2016; 21(7): 296-305.
Vancouver Arık B. Latest Developments on Crease Resistance Processes for Cellulosic Fabrics. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2016; 21(7): 296-305.
IEEE B. Arık , "Latest Developments on Crease Resistance Processes for Cellulosic Fabrics", Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 21, no. 7, pp. 296-305, Jan. 2016

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