Analysis of factors affecting the performance of activated peroxide systems on bleaching of cotton fabric
详细信息 查看全文
- 作者:Xiuzhu Fei (1)
Jinlong Yao (2)
Jinmei Du (1)
Chang Sun (1)
Zhonglin Xiang (2)
Changhai Xu (1)
1. Key Laboratory of Eco-textiles ; Ministry of Education ; College of Textiles and Clothing ; Jiangnan University ; Wuxi ; 214122 ; Jiangsu ; China
2. Jiangsu Ecotypic Dyeing and Finishing Technical Critical Laboratory ; Nantong ; 226601 ; Jiangsu ; China - 关键词:Cotton fabric ; Activated peroxide system ; Bleach activator ; Low ; temperature bleaching
- 刊名:Cellulose
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:22
- 期:2
- 页码:1379-1388
- 全文大小:845 KB
- 参考文献:1. Cai, JY, Evans, DJ (2007) Guanidine derivatives used as peroxide activators for bleaching cellulosic textiles. Color Technol 123: pp. 115-118 CrossRef
2. Cai, JY, Evans, DJ, Smith, SM (2001) Bleaching of natural fibers with TAED and NOBS activated peroxide systems. AATCC Rev 1: pp. 31-34
3. Daniel, C (1959) Use of half-normal plots in interpreting factorial two-level experiments. Technometrics 1: pp. 311-341 CrossRef
4. Davies, DM, Deary, ME (1991) Kinetics of the hydrolysis and perhydrolysis of tetraacetylethylenediamine, a peroxide bleach activator. J Chem Soc Perkin Trans 2: pp. 1549-1552 CrossRef
5. El-Shafie, A, Fouda, MMG, Hashem, M (2009) One-step process for bio-scouring and peracetic acid bleaching of cotton fabric. Carbohydr Polym 78: pp. 302-308 CrossRef
6. Gursoy, NC, El-Shafei, A, Hauser, P, Hinks, D (2004) Cationic bleach activators for improving cotton bleaching. AATCC Rev 4: pp. 37-40
7. Gursoy, NC, Lim, SH, Hinks, D, Hauser, P (2004) Evaluating hydrogen peroxide bleaching with cationic bleach activators in a cold pad-batch process. Text Res J 74: pp. 970-976 CrossRef
8. Hebeish, A, Hashem, M, Shaker, N, Ramadan, M, El-Sadek, B, Hady, MA (2009) New development for combined bioscouring and bleaching of cotton-based fabrics. Carbohydr Polym 78: pp. 961-972 CrossRef
9. Hofmann, J, Just, G, Pritzkow, W, Schmidt, H (1992) Bleaching activators and the mechanism of bleaching activation. J Prak Chem-Chem Ztg 334: pp. 293-297 CrossRef
10. Lee, JJ, Hinks, D, Lim, SH, Hauser, P (2010) Hydrolytic stability of a series of lactam-based cationic bleach activators and their impact on cellulose peroxide bleaching. Cellulose 17: pp. 671-678 CrossRef
11. Lenth, RV (1989) Quick and easy analysis of unreplicated factorials. Technometrics 31: pp. 469-473 CrossRef
12. Lim, SH, Gursoy, NC, Hauser, P, Hinks, D (2004) Performance of a new cationic bleach activator on a hydrogen peroxide bleaching system. Color Technol 120: pp. 114-118 CrossRef
13. Lim, SH, Lee, JJ, Hinks, D, Hauser, P (2005) Bleaching of cotton with activated peroxide systems. Color Technol 121: pp. 89-95 CrossRef
14. Long, X, Xu, C, Du, J, Fu, S (2013) The TAED/H2O2/NaHCO3 system as an approach to low-temperature and near-neutral pH bleaching of cotton. Carbohydr Polym 95: pp. 107-113 CrossRef
15. Milne, N (1998) Oxygen bleaching systems in domestic laundry. J Surfactants Deterg 1: pp. 253-261 CrossRef
16. Scarborough, SJ, Mathews, AJ (2000) Using T.A.E.D. in bleaching fiber blends to improve fiber quality. Text Chem Color Am Dyest Rep 32: pp. 33-37
17. Shao, JZ, Huang, Y, Wang, ZH, Liu, JQ (2010) Cold pad-batch bleaching of cotton fabrics with a TAED/H2O2 activating system. Color Technol 126: pp. 103-108 CrossRef
18. Wang, J, Washington, NM (2002) Hydrophobic bleach systems and textile preparation: a discontinuity in fabric care. AATCC Rev 2: pp. 21-24
19. Wang, M, Long, X, Du, J, Sun, C, Fu, S, Xu, C (2014) X-ray photoelectron spectroscopy analysis of cotton treated with the TBCC/H2O2/NaHCO3 system. Text Res J 84: pp. 2149-2156 CrossRef
20. Wu, CFJ, Hamada, M (2000) Experiments: planning, analysis, and parameter design optimization. Wiley, New York
21. Xu, C, Shamey, R, Hinks, D (2010) Activated peroxide bleaching of regenerated bamboo fiber using a butyrolactam-based cationic bleach activator. Cellulose 17: pp. 339-347 CrossRef
22. Xu, CH, Hinks, D, Shamey, R (2010) Bleaching cellulosic fibers via pre-sorption of N-[4-(triethylammoniomethyl)benzoyl]butyrolactam chloride. Cellulose 17: pp. 849-857 CrossRef
23. Xu, C, Long, X, Du, J, Fu, S (2013) A critical reinvestigation of the TAED-activated peroxide system for low-temperature bleaching of cotton. Carbohydr Polym 92: pp. 249-253 CrossRef
24. Xu, C, Hinks, D, Sun, C, Wei, Q (2015) Establishment of an activated peroxide system for low-temperature cotton bleaching using N-[4-(triethylammoniomethyl)benzoyl]butyrolactam chloride. Carbohydr Polym 119: pp. 71-77 CrossRef
25. Zeronian, SH, Inglesby, MK (1995) Bleaching of cellulose by hydrogen peroxide. Cellulose 2: pp. 265-272 CrossRef - 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Bioorganic Chemistry
Physical Chemistry
Organic Chemistry
Polymer Sciences - 出版者:Springer Netherlands
- ISSN:1572-882X
文摘
A screening experiment was designed to investigate the possible factors affecting the performance of activated peroxide systems (APSs) on bleaching of cotton fabric. The design of experiment comprised thirteen factors such as type of bleach activator (BA), concentration of bleach activator ([BA]), molar ratio of hydrogen peroxide to bleach activator ([H2O2]:[BA]), type of peroxide stabilizer (PS), concentration of peroxide stabilizer ([PS]), type of wetting agent (WA), concentration of wetting agent ([WA]), pH value of bleach bath (pH), bleaching temperature (T), bleaching time (t), liquor-to-goods ratio, cotton substrate (C), and water quality (W). The bleaching performance of APSs was accessed by measuring the degree of whiteness of bleached cotton fabric which was defined as the response factor for statistical analysis. The screening analysis revealed that C was the most significant factor affecting the performance of APSs on bleaching of cotton fabric, followed by T, BA, [BA], pH, PS, and [H2O2]:[BA]. Additionally, two-factor interactions were found as well between C and T, T and pH, C and BA, C and [BA], T and [BA], W and [PS], C and PS, and pH and [H2O2]:[BA]. These significant main effects and two-factor interactions were interpreted in details for a better understanding of the performance of APSs on bleaching of cotton fabric. The findings of this study are valuable for further establishment and optimization of APSs for low-temperature bleaching of cotton fabric.