Research Article
GRAFTING OF 2-HYDROXY ETHYL METHACRYLATE ONTO WOOL YARNS TO IMPROVE THEIR SHRINK-RESISTANCE AND FASTNESS PROPERTIES
Abstract
In this
study, 2-Hydroxy ethyl methacrylate (HEMA) monomer was grafted onto wool yarns
via chemically-induced
method. Grafting conditions and product characterization were
investigated. The effects of grafting temperature, grafting time, monomer and
initiator concentrations on grafting yield (GY) percentages were examined and
the optimum grafting conditions were determined. Maximum GY value was obtained
as 55%. Swelling tests showed that grafting
of HEMA negatively affect the swelling percentages of wool grafted yarns. SEM
analyses also were performed in order to detect the surface differences between
grafted and ungrafted yarns. The dyed fibers were subjected to weather, washing
and rubbing fastness tests and higher fastness ratings were observed for grafted
yarns, compared to ungrafted samples. Shrinking tests were also carried out to
10%, 20% and 35% HEMA grafted wool yarns and satisfactory results were
obtained.
study, 2-Hydroxy ethyl methacrylate (HEMA) monomer was grafted onto wool yarns
via chemically-induced
method. Grafting conditions and product characterization were
investigated. The effects of grafting temperature, grafting time, monomer and
initiator concentrations on grafting yield (GY) percentages were examined and
the optimum grafting conditions were determined. Maximum GY value was obtained
as 55%. Swelling tests showed that grafting
of HEMA negatively affect the swelling percentages of wool grafted yarns. SEM
analyses also were performed in order to detect the surface differences between
grafted and ungrafted yarns. The dyed fibers were subjected to weather, washing
and rubbing fastness tests and higher fastness ratings were observed for grafted
yarns, compared to ungrafted samples. Shrinking tests were also carried out to
10%, 20% and 35% HEMA grafted wool yarns and satisfactory results were
obtained.
References
- 1- Giri G., Nanda C. N. and Samal R. K., 1989. “Graft Copolymerization onto Wool Fibers: Graft Copolymerization of Acrylic Acid onto Wool Fibers Initiated by Quinquivalent Vanadium”, Polymer Journal, 21:p. 883-893.
- 2- Xue Z., Jin-Xin H., 2011. “Improvement in dyeability of wool fabric by microwave treatment”, Indian Journal of Fibre & Textile Research, 36: p. 58-62.
- 3- Kettlewell R., De Boos A. , Jackson J.,”Commercial shrink-resist finishes for wool, Functional Finishes for Textiles, Improving Comfort, Performance and Protection”, A volume in Wood head Publishing Series in Textiles, p.193-226, 2015.
- 4- Periolatto M., Ferrero F., Vineis C., Rombaldoni F., 2013. “Multifunctional finishing of wool fabrics by chitosan UV-grafting: An approach”, Carbohydrate Polymers, 98(1): p. 624-629.
- 5- Zahran M.K., 2006. “Grafting of Methacrylic Acid and Other Vinyl Monomers onto Cotton Fabric Using Ce (IV) Ion Cellulose Thiocarbonate Redox System”, Journal of Polymer Research, 13: p.65-71.
- 6- Jenkins D.W. and Hudson S. M., 2001. “Review of Vinyl Graft Copolymerization Featuring Recent Advances toward Controlled Radical-Based Reactions and Illustrated with Chitin/Chitosan Trunk Polymers”, Chemical Reviews,101:p.3245-3273.
- 7- Saafan A. A., El-Hamshary H., Abd-El-Aal M. F., Berber M. R. A., 2012. “Improved Graft Copolymerization of Some Modified Cellulose Polymers with Vinyl Monomers Using Dibenzoyl Peroxide (DBPO) as Initiator”, Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 49: p. 554-561.
- 8- Isiklan N., Kursun F., Inal M., 2010. “Graft copolymerization of itaconic acid onto sodium alginate using benzoyl peroxide”, Carbohydrate Polymers, 79(3): p. 665-672.
- 9- Pulat M., “Modification of Cellulose-Based Fibers by the Graft Copolymerization Method, Cellulose-Based Graft Copolymers Structure and Chemistry”, Edited by Vijay Kumar Thakur, CRC Press, p.195-208, 2015.
- 10- Pulat M. and Babayiğit D., 2001.“Graft Copolymerization of PU Membranes with Acrylic Acid and Crotonic Acid Using Benzoylperoxide Initiator”, Journal of Applied Polymer Sciences, 80: p.2690-2695.
- 11- Pulat M. and Babayiğit D., 2001.“Surface Modification of PU Membranes by Graft Copolymerization with Acrylamide and Itaconic Acid Monomers”, Polymer. Testing, 20(2): p.209-216.
- 12- Sabaa, M. W., Mokhtar, S. M., 2002. “Chemically induced graft copolymerization of itaconic acid onto cellulose fibers”, Polymer Testing, 21:p. 337-343.
- 13- Giri, G., Sahoo, P.K., Samal, R.K., 1990. “Graft copolymerization onto wool fibers: Grafting of acrylamide onto wool fibers initiated by potassium monopersulphate/Fe (II) redox system”, Journal of Applied Polymer Sciences, 40: p.471–483.
- 14- Monier M., Nawar N., Abdel-Latif D.A., 2010. “Preparation and characterization of chelating fibers based on natural wool for removal of Hg(II), Cu(II) and Co(II) metal ions from aqueous solutions”, Journal of Hazardous Materials, 184: p.118–125.
- 15- Xu W., Bao J., Zhang J., Shi M., “Microwave Irradiation Graft Copolymerization of Hydroxyethyl Methacrylate onto Wool Fabrics”, 1998. Journal of Applied Polymer Science, 70: p. 2343–2347.
- 16- El Naggar A. M., Marie M.M., El Gendy E. H. and El Miligy A. A.,1996. “Dyeing, moisture regains and mechanical properties of wool fabric grafted with PMMA by chemical and radiation-initiated methods”, Radiation Physics and Chemistry, 47(4): p. 623-629.
- 17- Mishra M.K., Tripathy A.K., 1981..“Grafting vinyl monomers onto natural fibres. Graft copolymerization of methyl methacrylate onto wool and silk using peroxydiphosphate-tartaric acid redox system”, European Polymer Journal , 17(12): p.1225-1226.
- 18- Anbarasan R., Vasudevan T., Gopalan A., 2000. “Peroxosalts initiated graft copolymerization of aniline onto wool fibre—a comparative kinetic study”, Journal of Materials Science, 35( 3): p. 617–625.
- 19- Giri G., Samal RK., 1991. “Grafting onto wool fibers: Graft copolymerization of methyl methacrylate onto wool fibers initiated by KHSO5/Fe (III) couple”, Journal of Applied Polymer Sciences, 42(8): p. 2371-2375.
- 20- Pulat M., Isakoca C., 2006. “Chemically Induced Graft Copolymerization of Vinyl Monomers onto Cotton Fibers”, Journal of Applied Polymer Sciences, 100(3): p. 2343-2347.
- 21- Pulat M., Nuralin F., 2014. Synthesis of 2-hydroxy ethyl methacrylate grafted cotton fibers and their fastness propertıes, Cellulose Chemical Technologies, 48(1-2):p. 137-143.
- 22- Zahran M. K.,2016. “A novel initiating system for wool grafting”, Arabian Journal of Chemistry,9: p. 408-420.
- 23- Princi E., Vicini S., Pedemonte E., Arrighi V., Mc Ewen I.J., 2007. “New polymeric materials for paper and textiles conservation. II. Grafting polymerization of ethyl acrylate/methyl methacrylate copolymers onto linen and cotton”, Journal of Applied Polymer Science, 103:p. 90-99.
- 24- Xie K. and Hou A., 2004. “One-bath dyeing of wool/acrylic blends with reactive cationic dyes based on monofluorotriazine”, Coloration Technology, 120:6,p.307-310.
- 25- Kaur I., Sharma N., Kumari V., 2013. “Modification of fiber properties through grafting of acrylonitrile to rayon by chemical and radiation methods”, Journal of Advanced Research, 4: p. 547–557.
- 26- International Organization for Standardization, Textiles -- Tests for colour fastness -- Part C06: Color fastness to domestic and commercial laundering, 4TH ed.,p:9, 2010-03.
- 27- Zhang F., Chen Y., Lin H., Wang H. and Zhao B., 2008. “HBP-NH2 grafted cotton fiber: Preparation and salt-free dyeing properties”, Carbohydate Polymers, 74(2): p. 250-256.
- 28- Ly N.G., Tester D.H., Buckenham P., Roczniok A.F., Adriaansen A.L., Scaysbrook F., De Jong S.,1991. “Simple Instruments for Quality Control by Finishers and Tailors”, Textile Research Journal, 61(7): p.402-406.
- 29 - Coşkun R., 2008.” Synthesis of functionalized poly(ethylene terephthalate) fibers by grafting of crotonic acid/methacrylamide monomer mixture”, Reactive & Functional Polymers, 68:p.1704–1714.
- 30- Mondal H.I, Farouqui F. I. and Salam M.A.,2006. ”Graft copolymerization of acrylate monomers onto sulfonated jute–cotton blended fabric” Journal of Applied Polymer Sciences, 100:p. 4393-4398.
- 31- Karakişla M, Saçak M. 1998. “Grafting of ethyl acrylate onto monofilament polyester fibers using benzoyl peroxide”. Journal of Applied Polymer Science.;70(9):1701–1705.
- 32- Abdolahifard M., Bahrami S.H. , and Malek R.M.A., 2011. “Surface Modification of PET Fabric by Graft Copolymerization with Acrylic Acid and Its Antibacterial Properties”, ISRN Org Chem., Article ID 265415, 2011:p.1-8
- 33- Tsukada M., Khan Md M. R., Miura T., Postle R. and Sakaguchi A., 2013. “Mechanical performance of wool fabrics grafted with methacrylamide and 2-hydroxyethyl methacrylate by the Kawabata Evaluation System for Fabric method”, Textile Research Journal, 83(12):p.1242-1250.
- 34- El-Said El-M.H.,2001. “Improved dyeability and mechanical properties of wool fibers grafted with poly(acrylic acid) by gamma-radiation”, Journal of Macromolecular Science, Part A, Pure and Applied Chemistry,Volume 38(11):p.1167-1174.
- 35- Yang D., Kong X., Gao D., Cui H., Huang T., Lin j.,2017. “Dyeing of cotton fabric with reactive disperses dye contain acyl fluoride group in supercritical carbon dioxide”, Dyes and Pigments, 139: p. 566–574.
YÜZEYLERİNE 2-HİDROKSİ ETİL METAKRİLAT AŞILAMASI İLE YÜN İPLİKLERİN ÇEKME VE HASLIK ÖZELLİKLERİNİ GELİŞTİRMESİ
Abstract
Bu
çalışmada, yün ipliklere kimyasal başlatıcılı metodla 2-Hidroksi etil
metakrilat (HEMA) monomeri aşılandı. Aşılama koşulları incelendi ve ürün
karakterizasyonları yapıldı. Aşılama sıcaklığı, aşılama süresi, monomer ve
başlatıcı derişimlerinin aşılama verimi (GY) yüzdesine etkisi araştırıldı ve
optimum aşılama koşulları saptandı. En yüksek GY değeri % 55 olarak elde
edildi. Şişme testleri, HEMA aşılanmasının
yün ipliklerin şişmesini negative etkilediğini gösterdi. Aşılanmış ve
aşılanmamış ipliklerin yüzeylerindeki farklılıkları belirlemek için SEM
incelemeleri de yapıldı. Boyanmış
ipliklere hava, yıkama ve sürtünme haslık estleri uygulandı ve aşılanmış
ipliklerde aşılanmamışlara göre daha yüksek haslık değerleri elde edildi. %10,
%20 ve %35 HEMA aşılanmış yün ipliklere çekme testleri de yapıldı ve oldukça
tatminkar sonuçlara ulaşıldı.
çalışmada, yün ipliklere kimyasal başlatıcılı metodla 2-Hidroksi etil
metakrilat (HEMA) monomeri aşılandı. Aşılama koşulları incelendi ve ürün
karakterizasyonları yapıldı. Aşılama sıcaklığı, aşılama süresi, monomer ve
başlatıcı derişimlerinin aşılama verimi (GY) yüzdesine etkisi araştırıldı ve
optimum aşılama koşulları saptandı. En yüksek GY değeri % 55 olarak elde
edildi. Şişme testleri, HEMA aşılanmasının
yün ipliklerin şişmesini negative etkilediğini gösterdi. Aşılanmış ve
aşılanmamış ipliklerin yüzeylerindeki farklılıkları belirlemek için SEM
incelemeleri de yapıldı. Boyanmış
ipliklere hava, yıkama ve sürtünme haslık estleri uygulandı ve aşılanmış
ipliklerde aşılanmamışlara göre daha yüksek haslık değerleri elde edildi. %10,
%20 ve %35 HEMA aşılanmış yün ipliklere çekme testleri de yapıldı ve oldukça
tatminkar sonuçlara ulaşıldı.
References
- 1- Giri G., Nanda C. N. and Samal R. K., 1989. “Graft Copolymerization onto Wool Fibers: Graft Copolymerization of Acrylic Acid onto Wool Fibers Initiated by Quinquivalent Vanadium”, Polymer Journal, 21:p. 883-893.
- 2- Xue Z., Jin-Xin H., 2011. “Improvement in dyeability of wool fabric by microwave treatment”, Indian Journal of Fibre & Textile Research, 36: p. 58-62.
- 3- Kettlewell R., De Boos A. , Jackson J.,”Commercial shrink-resist finishes for wool, Functional Finishes for Textiles, Improving Comfort, Performance and Protection”, A volume in Wood head Publishing Series in Textiles, p.193-226, 2015.
- 4- Periolatto M., Ferrero F., Vineis C., Rombaldoni F., 2013. “Multifunctional finishing of wool fabrics by chitosan UV-grafting: An approach”, Carbohydrate Polymers, 98(1): p. 624-629.
- 5- Zahran M.K., 2006. “Grafting of Methacrylic Acid and Other Vinyl Monomers onto Cotton Fabric Using Ce (IV) Ion Cellulose Thiocarbonate Redox System”, Journal of Polymer Research, 13: p.65-71.
- 6- Jenkins D.W. and Hudson S. M., 2001. “Review of Vinyl Graft Copolymerization Featuring Recent Advances toward Controlled Radical-Based Reactions and Illustrated with Chitin/Chitosan Trunk Polymers”, Chemical Reviews,101:p.3245-3273.
- 7- Saafan A. A., El-Hamshary H., Abd-El-Aal M. F., Berber M. R. A., 2012. “Improved Graft Copolymerization of Some Modified Cellulose Polymers with Vinyl Monomers Using Dibenzoyl Peroxide (DBPO) as Initiator”, Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 49: p. 554-561.
- 8- Isiklan N., Kursun F., Inal M., 2010. “Graft copolymerization of itaconic acid onto sodium alginate using benzoyl peroxide”, Carbohydrate Polymers, 79(3): p. 665-672.
- 9- Pulat M., “Modification of Cellulose-Based Fibers by the Graft Copolymerization Method, Cellulose-Based Graft Copolymers Structure and Chemistry”, Edited by Vijay Kumar Thakur, CRC Press, p.195-208, 2015.
- 10- Pulat M. and Babayiğit D., 2001.“Graft Copolymerization of PU Membranes with Acrylic Acid and Crotonic Acid Using Benzoylperoxide Initiator”, Journal of Applied Polymer Sciences, 80: p.2690-2695.
- 11- Pulat M. and Babayiğit D., 2001.“Surface Modification of PU Membranes by Graft Copolymerization with Acrylamide and Itaconic Acid Monomers”, Polymer. Testing, 20(2): p.209-216.
- 12- Sabaa, M. W., Mokhtar, S. M., 2002. “Chemically induced graft copolymerization of itaconic acid onto cellulose fibers”, Polymer Testing, 21:p. 337-343.
- 13- Giri, G., Sahoo, P.K., Samal, R.K., 1990. “Graft copolymerization onto wool fibers: Grafting of acrylamide onto wool fibers initiated by potassium monopersulphate/Fe (II) redox system”, Journal of Applied Polymer Sciences, 40: p.471–483.
- 14- Monier M., Nawar N., Abdel-Latif D.A., 2010. “Preparation and characterization of chelating fibers based on natural wool for removal of Hg(II), Cu(II) and Co(II) metal ions from aqueous solutions”, Journal of Hazardous Materials, 184: p.118–125.
- 15- Xu W., Bao J., Zhang J., Shi M., “Microwave Irradiation Graft Copolymerization of Hydroxyethyl Methacrylate onto Wool Fabrics”, 1998. Journal of Applied Polymer Science, 70: p. 2343–2347.
- 16- El Naggar A. M., Marie M.M., El Gendy E. H. and El Miligy A. A.,1996. “Dyeing, moisture regains and mechanical properties of wool fabric grafted with PMMA by chemical and radiation-initiated methods”, Radiation Physics and Chemistry, 47(4): p. 623-629.
- 17- Mishra M.K., Tripathy A.K., 1981..“Grafting vinyl monomers onto natural fibres. Graft copolymerization of methyl methacrylate onto wool and silk using peroxydiphosphate-tartaric acid redox system”, European Polymer Journal , 17(12): p.1225-1226.
- 18- Anbarasan R., Vasudevan T., Gopalan A., 2000. “Peroxosalts initiated graft copolymerization of aniline onto wool fibre—a comparative kinetic study”, Journal of Materials Science, 35( 3): p. 617–625.
- 19- Giri G., Samal RK., 1991. “Grafting onto wool fibers: Graft copolymerization of methyl methacrylate onto wool fibers initiated by KHSO5/Fe (III) couple”, Journal of Applied Polymer Sciences, 42(8): p. 2371-2375.
- 20- Pulat M., Isakoca C., 2006. “Chemically Induced Graft Copolymerization of Vinyl Monomers onto Cotton Fibers”, Journal of Applied Polymer Sciences, 100(3): p. 2343-2347.
- 21- Pulat M., Nuralin F., 2014. Synthesis of 2-hydroxy ethyl methacrylate grafted cotton fibers and their fastness propertıes, Cellulose Chemical Technologies, 48(1-2):p. 137-143.
- 22- Zahran M. K.,2016. “A novel initiating system for wool grafting”, Arabian Journal of Chemistry,9: p. 408-420.
- 23- Princi E., Vicini S., Pedemonte E., Arrighi V., Mc Ewen I.J., 2007. “New polymeric materials for paper and textiles conservation. II. Grafting polymerization of ethyl acrylate/methyl methacrylate copolymers onto linen and cotton”, Journal of Applied Polymer Science, 103:p. 90-99.
- 24- Xie K. and Hou A., 2004. “One-bath dyeing of wool/acrylic blends with reactive cationic dyes based on monofluorotriazine”, Coloration Technology, 120:6,p.307-310.
- 25- Kaur I., Sharma N., Kumari V., 2013. “Modification of fiber properties through grafting of acrylonitrile to rayon by chemical and radiation methods”, Journal of Advanced Research, 4: p. 547–557.
- 26- International Organization for Standardization, Textiles -- Tests for colour fastness -- Part C06: Color fastness to domestic and commercial laundering, 4TH ed.,p:9, 2010-03.
- 27- Zhang F., Chen Y., Lin H., Wang H. and Zhao B., 2008. “HBP-NH2 grafted cotton fiber: Preparation and salt-free dyeing properties”, Carbohydate Polymers, 74(2): p. 250-256.
- 28- Ly N.G., Tester D.H., Buckenham P., Roczniok A.F., Adriaansen A.L., Scaysbrook F., De Jong S.,1991. “Simple Instruments for Quality Control by Finishers and Tailors”, Textile Research Journal, 61(7): p.402-406.
- 29 - Coşkun R., 2008.” Synthesis of functionalized poly(ethylene terephthalate) fibers by grafting of crotonic acid/methacrylamide monomer mixture”, Reactive & Functional Polymers, 68:p.1704–1714.
- 30- Mondal H.I, Farouqui F. I. and Salam M.A.,2006. ”Graft copolymerization of acrylate monomers onto sulfonated jute–cotton blended fabric” Journal of Applied Polymer Sciences, 100:p. 4393-4398.
- 31- Karakişla M, Saçak M. 1998. “Grafting of ethyl acrylate onto monofilament polyester fibers using benzoyl peroxide”. Journal of Applied Polymer Science.;70(9):1701–1705.
- 32- Abdolahifard M., Bahrami S.H. , and Malek R.M.A., 2011. “Surface Modification of PET Fabric by Graft Copolymerization with Acrylic Acid and Its Antibacterial Properties”, ISRN Org Chem., Article ID 265415, 2011:p.1-8
- 33- Tsukada M., Khan Md M. R., Miura T., Postle R. and Sakaguchi A., 2013. “Mechanical performance of wool fabrics grafted with methacrylamide and 2-hydroxyethyl methacrylate by the Kawabata Evaluation System for Fabric method”, Textile Research Journal, 83(12):p.1242-1250.
- 34- El-Said El-M.H.,2001. “Improved dyeability and mechanical properties of wool fibers grafted with poly(acrylic acid) by gamma-radiation”, Journal of Macromolecular Science, Part A, Pure and Applied Chemistry,Volume 38(11):p.1167-1174.
- 35- Yang D., Kong X., Gao D., Cui H., Huang T., Lin j.,2017. “Dyeing of cotton fabric with reactive disperses dye contain acyl fluoride group in supercritical carbon dioxide”, Dyes and Pigments, 139: p. 566–574.
There are 35 citations in total.
Details
| Primary Language | English |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | April 1, 2018 |
| Submission Date | March 18, 2017 |
| Acceptance Date | February 15, 2018 |
| Published in Issue | Year 2018 Volume: 28 Issue: 1 |
