Electrostatic Interactions to Attach Latex to Pigment Surface to Reduce Binder Migration

P. Rao, D. Bousfield, C. Tripp
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Abstract

For many paints, paper coatings, and other pigmented coatings, latex and soluble binders are used to impart mechanical properties. However, non-uniform latex binder distributions are often observed in the thickness direction during application and drying, leading to quality issues. While several publications have documented this issue, few solutions are offered in the literature. Here we report a simple process to use electrostatic interactions to attach latex binder to pigments. Coating suspensions are generated using cationic precipitated calcium carbonate (PCC) pigments that are mixed with anionic styrene-butadiene (SB) latex binders resulting in latex-covered pigments. The migration of latex binder in coatings generated on various substrates under various drying conditions was measured using Raman spectroscopy and compared with reference coatings. The new system shows reduced latex binder migration for most situations than those obtained with the reference coating. The coated papers were also measured for strength, opacity, gloss, water drainage rate, and porosity. Little difference is seen in the picking strength of the coating and gloss compared to coatings prepared with standard formulations. Water drainage rate, opacity, and porosity were higher for latex-covered pigment (LCP) coatings than the reference standard coating; this increased porosity is likely due to the strong electrostatic attraction that exists between the cationic pigment and anionic latex binder that reduces the densification of the coating during drying.
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静电相互作用使胶乳附着在颜料表面,减少粘合剂迁移
对于许多油漆、纸张涂料和其他颜料涂料,使用乳胶和可溶性粘合剂来赋予机械性能。然而,在应用和干燥过程中,经常观察到胶乳粘合剂在厚度方向上的不均匀分布,从而导致质量问题。虽然一些出版物记录了这个问题,但文献中提供的解决方案很少。本文报道了一种利用静电相互作用将胶乳粘合剂附着在颜料上的简单工艺。涂料悬浮液是用阳离子沉淀碳酸钙(PCC)颜料与阴离子丁苯(SB)乳胶粘合剂混合而成的,得到乳胶覆盖的颜料。采用拉曼光谱法测定了不同干燥条件下在不同基材上生成的涂料中胶乳粘合剂的迁移量,并与对照涂料进行了比较。新系统显示,在大多数情况下,与参考涂层相比,胶乳粘合剂迁移减少。涂布纸的强度、不透明度、光泽度、排水率和孔隙率也被测量。与标准配方制备的涂料相比,在涂层的采摘强度和光泽方面差别不大。乳胶覆盖涂料(LCP)的排水性、不透明度和孔隙率均高于参考标准涂料;这种增加的孔隙率可能是由于存在于阳离子颜料和阴离子胶乳粘合剂之间的强静电吸引力,在干燥过程中降低了涂层的致密性。
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