Effects of carboxymethyl starch as a papermaking additive

分散剂 絮凝作用 造纸 阳离子聚合 化学 脱水 Zeta电位 淀粉 制浆造纸工业 聚丙烯酰胺 化学工程 变性淀粉 材料科学 复合材料 有机化学 高分子化学 色散(光学) 工程类 物理 岩土工程 纳米颗粒 光学
作者
IAN J. SEIDEL,MICHAEL S. LITAVECZ,SARAH PUTNEY,MORGAN E. DAVIS,Martin A. Hubbe
出处
期刊:Tappi Journal [TAPPI]
卷期号:23 (2): 78-87 被引量:1
标识
DOI:10.32964/tj23.2.78
摘要

Carboxymethyl starch (CMS) is a bio-based, anionic polymer that has potential as part of a dry-strength additive program for papermaking. Due to its negative charge, its effects can be expected to depend on its interactions with various cationic agents. In this work, the effects of CMS were observed following its sequential addition after one of three selected cationic strength agents at different dosage levels. In selected tests, the furnish was pretreated at the 1% level by a dispersant, sodium polyacrylate, which might represent a high level of anionic contaminants in a paper mill system. Laboratory tests were conducted to show the effects on dewatering, fine-particle retention, and flocculation. These tests were supplemented with measurements of charge demand, zeta potential, and handsheet properties. Sequential addition of cationic glyoxylated acrylamide copolymers (gPAM) and CMS were found to strongly promote dewatering. Two gPAM products and a poly(vinylamine) product in sequential addition with CMS were very effective for promoting fine-particle retention. These same sequential treatments of the stock contributed to moderate fiber flocculation, though severe flocculation was caused by further treatment of the furnish with colloidal silica. Handsheet strength results were mixed. In the default recycled copy paper furnish, the average breaking length for the sheets made with cationic additives followed by CMS was not greatly different from the blank condition. Superior strength resulted when the default furnish was treated with a dispersant alone. When the dispersant-contaminated furnish was treated with the same combinations of cationic additives and CMS, the strength returned to the baseline achieved in the absence of the dispersant. The results were discussed in terms of the charged character of the different additives and their interactions not only with the fiber surfaces but also with each other.
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