Journal
ACS APPLIED POLYMER MATERIALS
Volume 5, Issue 3, Pages 1871-1881Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsapm.2c01960
Keywords
film forming property; hybrid latex film; pigment encapsulation; cross-linked structure; bind-free pigment printing
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This study investigates the impact of cross-linking degree on the film formation behavior and performance of binder-free pigment printing on fabric using fluorosilicone-modified polyacrylate/pigment hybrid latexes. The results show that the cross-linking degree plays a crucial role in chain diffusion, latex particle packing, and formation of hybrid films during drying. Furthermore, the cross-linking degree affects the morphology of the printed polyester fiber and improves the softness and air-permeability of the printed fabric.
Binder-free pigment dyeing/printing of textiles is a type of environmentally friendly and clean production technology that utilizes polymer/pigment hybrid latex. Although it has widespread use, the manner in which the nature of the hybrid latex influences the film formation and how systems can be designed to improve softness and air-permeability is still unclear. In this study, we synthesized a series of fluorosilicone-modified polyacrylate/pigment hybrid latexes to explore how cross-linking degree affects film-formation behavior and binder-free pigment printing performance on fabric, where the cross-linking structure is controlled by a silane coupling agent. Our results show that the cross-linking degree of the fluorosilicone-modified polyacrylate chain plays a vital role in chain diffusion, latex particle packing, and deformation. Further, it controls skin formation during the process of hybrid latex drying. The dried hybrid films not only have homogeneity and good barrier performance but also exhibit a soft state (low Tg, - 28.3 degrees C) owing to the silicone chain segment and bound water with a plasticizing effect. Interestingly, our results show that the cross-linking degree of hybrid latex particles changes as a function of the morphology of the printed polyester (PET) fiber. Further, as a result of the improvement of the softness and air -permeability of the binder-free printed PET fabric, the surface of single yarns is uniformly wrapped by hybrid films with a high cross -linking degree. These insights allow for effective development of textile pigment printing technology controlled by the film-formation behavior of hybrid latex.
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