CLEAN PRINTING PROCESS OF COTTON WITH NATURAL DYES: EFFECT OF PASTE FORMULATION COMPONENTS ON PRINTING PERFORMANCES

Authors

  • AMAL BEN FADHEL 1University of Monastir, Faculty of Sciences of Monastir, Research Unit of Applied Chemistry and Environment, Monastir, Tunisia
  • WAFA MILED University of Monastir, Textile Engineering Laboratory, Higher Institute of Technological Studies of Ksar Hellal, Ksar Hellal, Tunisia and Department of Early Childhood, University College Taraba, Taif University, Saudi Arabia
  • WAFA HADDAR University of Monastir, Faculty of Sciences of Monastir, Research Unit of Applied Chemistry and Environment, Monastir, Tunisia and 3Department of Early Childhood, University College Taraba, Taif University, Saudi Arabia
  • NIZAR MEKSI University of Monastir, Faculty of Sciences of Monastir, Research Unit of Applied Chemistry and Environment, Monastir, Tunisia and University of Monastir, National Engineering School of Monastir, Textile Engineering Department, Monastir, Tunisia

DOI:

https://doi.org/10.2298/CICEQ191004019B

Keywords:

natural dyes, cleaner printing process, cotton fabrics, past formulation components, components effect, printing qualities

Abstract

A novel natural dye Corchorus olitorius L. was investigated in the preparation of printing pastes for screen printing of cotton fabric. To ensure ecological printing, greener thickeners were used such as: sodium alginate, carboxy­methyl cellulose and Ceratonia siliqua L. flour. The nature and concentration of thickener, dyestuff and urea concentrations, mordant type and fixation method were explored. Printed cotton fabric qualities were evaluated by determining different parameters: color strength, penetration percentage, printing fast­nesses and mechanical properties, whereas print paste quality was evaluated by measuring its apparent viscosity. The higher dye concentration used in the printing paste led to better apparent viscosity and color strength levels. The increase of urea concentration improved the color strength, but reduced the apparent viscosity of printing paste. Best results of viscosity and color strength parameters were obtained using ferrous sulfate as a mordant and sodium algi­nate as a thickener, the results being 1346.67 mPa s-1 and 4.90, respectively. The resulting color shades varied from green to brown and very good color fastnesses was achieved, but depended mainly on the used experimental conditions.

References

A.D. Broadbent, Basic principles of textile coloration, Society of dyers and colorists, Bradford, 2001, pp. 493-526

L.W.C. Miles, Textile printing, Society of dyers and colorists, Bradford, 2003

K.T. Chung, S.E. Stevens, Jr., Environ. Toxicol. Chem. 12 (1993) 2121-2132

A.K. Yadav, C.K. Jain, D.S. Malik, Sustain. Environ. Res. 3 (2014) 95-102

W. Miled, S. Roudesli, A. Haj Said, J. Text. Apparel. Technol. Manage. 6 (2010) 1-6

F.M.D. Chequer, G.A. Rodrigues de Oliveira, E.R.A. Ferraz, J.C. Cardoso, M.V.B. Zanoni, D. Palma de Oliv¬eira, In Eco-friendly textile dyeing and finishing, M.Gunay (Ed.), Intech Open, London, 2013, pp.151-176

E. Ozturk, H. Koseoglu, M. Karaboyacı, N.O. Yigit, U. Yetis, M. Kitis, J. Clean. Prod. 130 (2016) 92-102

E. Ozturk, U. Yetis, F.B. Dilek, G.N. Demirer, J. Clean. Prod. 17 (2009) 239-247

F. Ferrero, M. Periolatto, G. Rovero, M. Giansetti, J. Clean. Prod.19 (2011) 1377-1384

N. Meksi, M. Ben Ticha, M. Kechida, M.F. Mhenni, J. Clean. Prod. 24 (2012)149-158

M. Ben Ticha, N. Meksi, N. Drira, M. F. Mhenni, Chem. Ind. Chem. Eng. Q. 20 (2014) 463-470

M. Ben Ticha, N. Meksi, N. Drira, M. F.Mhenni, Res. J. Text. Apparel 19 (2015)16-25

M. Ben Ticha, W. Haddar, N. Meksi, A. Guesmi, M.F. Mhenni, Carbohydr. Polym. 154 (2016) 287-295

F. Bouatay, N. Meksi, F. Slah, M.F. Mhenni, J. Text. Sci. Eng. 4 (2014)

F. Bouatay, N. Meksi, S. Adeel, F. Salah, F. Mhenni, J. Nat. Fibers 13 (2016) 423-436

D. Grandjean, S. Karelle, BE Pat. 1011895 A3 (2000)

G.A. Montero, C.B. Smith, W.A. Hendrix, D.L. Butcher, Ind. Eng. Chem. Res. 39 (2000) 4806-4812

N. Meksi, A. Moussa, J. Clean. Prod.161 (2017) 105-126

V. Tiwari, P.S. Vankar, Colourage. 48 (2001) 25-28

T. Bechtold, A. Turcanu, J. Clean. Prod. 17 (2009) 1669-1679

T. Bechtold, A. Turcanu, E. Ganglberger, S. Geissler, J. Clean. Prod.11 (2003) 499-509

J.J. Long, H.M. Xu, C.L. Cui, X.C. Wei, F. Chen, A.K. Cheng, J. Clean. Prod. 65 (2014) 574-582

Centexbel, Textile dyeing in ionic liquids, Textile dyeing in ionic liquids, http://www.centexbel.be/projects/textile-dyeing-in-ionic-liquids. 2012 (accessed 7 June 2012)

T. Agnhage, A. Perwuelz, N. Behary, J. Clean. Prod. 70 (2017) 61-67

M. Shahid, S. Ul-Islam, F. Mohammad, J. Clean. Prod. 53 (2013) 310-331

M. Kamel, R.M. El-Shishtawy, B.M. Youssef, H. Mashaly, Dyes Pigm. 73 (2005) 103-110

M. Montazer, M. Parvinzadeh, Fiber. Polym. 8 (2007) 181-185

P.S. Vankar, S. Rakhi, W. Samudrika, Pigm. Resin. Technol. 38 (2009) 242-247

H. Gouila, N. Meksi, W. Haddar, M.F. Mhenni, H.B. Jannet, Ind. Crop. Prod. 35 (2012) 31-36

W. Haddar, N. Baaka, N. Meksi, M. Ben Ticha, A. Gu-esmi, M.F. Mhenni, Fiber. Polym. 16 (2015) 1506-1511

W. Haddar, M. Ben Ticha, N. Meksi, A. Guesmi, Nat. Prod. Res. 32 (2018) 141-148

M. Ben Ticha, N. Meksi, H.E. Attia, W. Haddar, A. Guesmi, H. Ben Jannet, M. F. Mhenni, Dyes. Pigm. 141 (2017) 103-111

M. Rekaby, A.A. Salem, S.H. Nassar, J. Text. Inst. 100 (2009) 486-495

D. Maamoun, H. Osman, S.H. Naasar, J. Int. Environ. App. Sci. 9 (2014) 90-99

A.T. Özguney, P. Seçim, A. Demir, T. Gulumser, E.Özdogan, Text. Confect. 25 (2015) 166-171

S. Babel, R. Gupta, J. Textile. Sci. Eng. 6 (2016) 230

A. Ragheb, S. Tawfik, J.I. Abd –El Thalouth, M.M. Mosaad, Int. J. Phar. Sci. Res. 919 (2017) 611-620

J.I. Abd –El Thalouth. J. Am. Sci. 7 (2011) 623-640

S.N. Chattopadhayay, N.C. Pan, J. Nat. Fibers 16 (2019) 1077-1088

O.A. Hakeim, A. Abou-Okeil, L.A.W. Abdob, A. Waly, J. App. Polym. Sci. 97 (2005) 559-563

M.D. Teli, J. Sheikh, P. Shastrakar, J. Text. 2013, Article ID 320510

A.A. Hebeish, A.A. Shahin, M. Rekaby, A.A. Ragheb, Egypt. J. Chem. 58 (2015) 659-670

A.A. Hebeish, A.A. Ragheb, S.H. Nassar, E.E. Allam, J.I. A. EI Thalouth, J. App. Polym. Sci. 102 (2006) 338-347

H.M. El-Hennawy, K.A. Ahmed, I. Abd–El Thalouth, Ind. J. Fibre Text. 37 (2012) 145-249

S. İlhan, F. Savaroglu, F. Çolak, J. Ethnopharmacol. 89 (2007) 55-59

M. Loumerem, A. Alercia, Genet. Resour. Crop. Evol. 63 (2016) 1103-1111

K. Mibei, N.K. Ojijon, S.M. Karanja, J.K. Kinyua, Annals: Food. Sci. Tech. 1 (2012) 37-42

P. Kubelka, J. Opt. Soc. Am. 38 (1948) 448-457

P. Kubelka, J. Opt. Soc. Am. 44 (1954) 330-334

A.N. Derbyshire, W.N. Marshall, J. Soc. Dyers. Col. 96 (1980) 166-167

E.P.A. Kumbasar, M. Bide, Dyes. Pigm. 47 (2000)189-199

D.O. Çatal, A.T. Özguney, E.P.A. Kumbasar, Text. Confect. 22 (2012) 309-316

L. Wang, F. Zhu, J. Shao, Q. Yang, D. Lu, Cellulose 20 (2013) 2125-2135

A.D. Broadbent, Basic principles of textile coloration, Society of dyers and colorists, Bradford, 2001, pp. 533-536

A.D. Broadbent, Basic principles of textile coloration, Society of dyers and colorists, Bradford, 2001, pp. 565-568

S. E. A. Nahed, Y.A. Youssef, R.M. El-Shishtawy, A.A. Mousa, Color. Technol. 122 (2006) 324-32

E.K. Hwang, Y.H. Lee, H.D. Kim, Fiber. Polym. 9 (2008) 334-340

E.M.R. El-Zairy, Autex Res. J. 11 (2011) 66-70

M.G. Uddin, J. Text. 10 (2014) 1-8

C.W.M. Yuen, S.K.A. Ku, P.S. Choi, C.W. Kan, Fiber. Polym. 5 (2004) 117-121.

Published

25.04.2021

Issue

Section

Articles

How to Cite

CLEAN PRINTING PROCESS OF COTTON WITH NATURAL DYES: EFFECT OF PASTE FORMULATION COMPONENTS ON PRINTING PERFORMANCES. (2021). Chemical Industry & Chemical Engineering Quarterly, 27(1), 1-13. https://doi.org/10.2298/CICEQ191004019B

Similar Articles

31-40 of 107

You may also start an advanced similarity search for this article.