Introducing covalent and ionic cross-linking into cotton through polycarboxylic acids and nano TiO_2

Ali Nazari; Majid Montazer; Mohammad Bameni Moghadam

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Introducing covalent and ionic cross-linking into cotton through polycarboxylic acids and nano TiO_2

机译：通过多羧酸和纳米TiO_2将共价和离子交联引入棉花

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In this study, cationized cotton (CC) fabrics were treated with polycarboxylic acids and nano titanium dioxide (NTO) to produce fabrics with enhanced cross-linking property. The CC cross-linking with butane terra carboxylic acid and citric acid in the presence of sodium hypophosphite catalyst and NTO co-catalyst under different curing methods were optimized using a statistical approach. The central composite design was used for variables based on Design of Expert software. The appropriate models to create optimum dry crease recovery angle were obtained for each condition. The results show that the covalent and ionic linkages lead to the cross-linking improvement of CC. X-ray diffraction and scanning electron microscopy were also applied to indicate the NTO particles on the cotton surface with the size of nano particles and their crystallinity.

机译：在这项研究中，阳离子化棉（CC）织物经过聚羧酸和纳米二氧化钛（NTO）的处理，以生产出具有增强交联性能的织物。使用统计方法优化了在不同固化方法下在次磷酸钠催化剂和NTO助催化剂存在下与丁烷terra羧酸和柠檬酸的CC交联。中央复合设计用于基于Design of Expert软件的变量。对于每种情况，都获得了创建最佳干折痕恢复角的适当模型。结果表明，共价键和离子键导致CC的交联改进。还使用X射线衍射和扫描电子显微镜观察了棉表面上的NTO颗粒以及纳米颗粒的大小及其结晶度。

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来源
《The Journal of the Textile Institute》 |2012年第9期|p.985-996|共12页
作者
Ali Nazari; Majid Montazer; Mohammad Bameni Moghadam;
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作者单位

Art & Architectural Department, Yazd Branch, Islamic Azad University, Yazd, Iran;

Department of Textile Engineering,Amirkabir University of Technology (Tehran Polytechnic), Tehran, Iran;

Department of Statistics, Allameh Tabatabai'University, Tehran, Iran;

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原文格式 PDF
正文语种 eng
中图分类
关键词
cotton; cationized; cross-linking; nano TiO_2; curing methods;

机译：棉;阳离子化交联纳米TiO_2;固化方法;

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1. Optimization of cotton crosslinking with polycarboxylic acids and nano TiO_2 using central composite design [J] . Nazari A., Montazer M., Rashidi A., Journal of Applied Polymer Science . 2010,第5期

机译：中心复合设计优化多元羧酸与纳米TiO_2的棉交联。
2. Effect of nano TiO_2 on self-cleaning property of cross-linking cotton fabric with succinic acid under UV irradiation [J] . Karimi L., Mirjalili M., Yazdanshenas M.E., Photochemistry and Photobiology: An International Journal . 2010,第5期

机译：纳米TiO_2对紫外辐射下琥珀酸交联棉织物自洁性能的影响
3. Proteases pretreatment on wool to enhance durable antimicrobial and UV protection with nano TiO_2 and polycarboxylic acids using RSM [J] . Ali Nazari The Journal of the Textile Institute . 2014,第6期

机译：使用RSM对蛋白酶进行羊毛预处理以增强纳米TiO_2和多元羧酸的持久抗菌和紫外线防护
4. Latest Progresses in Wrinkle Free Finishing of Cotton with Polycarboxylic Acids-New Catalysts and Agents [C] . Gang Sun, Bolin Ji, Cunyi Zhao, American Association of Textile Chemists and Colorists International Conference . 2016

机译：最新进展皱纹与多元羧酸 - 新型催化剂和试剂
5. Formaldehyde-Free Wrinkle Resistant Treatment of Cotton Fabrics with Novel Aromatic Polycarboxylic Acids. [D] . Dong, Hao. 2015

机译：新型芳香族多元羧酸对棉织物的无甲醛抗皱处理。
6. In vivo covalent cross-linking of photon-converted rare-earth nanostructures for tumour localization and theranostics [O] . Xiangzhao Ai, Chris Jun Hui Ho, Junxin Aw, -1

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7. Non-additive impacts of covalent cross-linking on the viscoelastic nanomechanics of ionic polyelectrolyte complexes [O] . Biao Han, Tianzhu Ma, John H. Vergara, 2017

机译：共价交联对离子聚电解质复合物粘弹性纳米机械的非加性撞击
8. Specific Activation of Murine B Cells by Low Molecular Weight Polyamino-Polycarboxylic Acids (Ampholytes). [R] . Knudsen, R. C., Ahmed, A., Longton, R. W., 1977

机译：低分子量聚氨基多羧酸（ampholytes）对小鼠B细胞的特异性激活。

Introducing covalent and ionic cross-linking into cotton through polycarboxylic acids and nano TiO_2

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