Application of foamed additives to the surface of wet handsheets

January 2021 Pub Date : 2021-02-01 DOI:10.32964/tj20.1.9

Bliss Terry, Luo Mingxiang, M. Nicholas

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引用次数: 1

Abstract

We explored the application of foamed wet-end additives onto wet handsheets to qualify our method of application and to demonstrate the method’s usefulness for prescreening additives and foaming agents for packaging applications. We modified a laboratory drawdown coating machine to allow coating of wet handsheets with foamed additives. Initial sheet solids were adjusted to a target of 8%–25% by vacuum. Foam layer thickness was set mechanically. After application, the foamed additives were drawn into the sheet with vacuum. The additive dosage was adjusted by altering its concentration within the foaming formulation. We evaluated more than 100 foaming agents and 10 strength additives, comparing wet-end and foam-assisted addition with no addition on recycled linerboard and virgin linerboard furnish. Foam-assisted addition typically displayed a much steeper dose-response curve and much higher maximum strength levels than wet-end addition. Our results suggest potential target applications for this technology, such as lightweighting, and improved strength performance in mills with relatively closed water systems, where strength aids added into the wet end are adversely influenced by accumulation of inorganic ions and organic species.

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泡沫添加剂在湿手纸表面的应用

我们探索了泡沫湿端添加剂在湿手纸上的应用，以确定我们的应用方法，并证明该方法对包装应用的预筛选添加剂和发泡剂的有用性。我们改进了一台实验室缩孔涂布机，使其能够在湿手纸上涂上泡沫添加剂。通过真空将初始片状固体调整到8%-25%的目标。泡沫层厚度机械设定。应用后，用真空将发泡添加剂吸入板材中。通过改变其在发泡配方中的浓度来调整添加剂的用量。我们评估了100多种发泡剂和10种强度添加剂，比较了湿端和泡沫辅助添加与不添加在再生纸板和原始纸板上的情况。泡沫辅助添加通常表现出比湿端添加更陡峭的剂量响应曲线和更高的最大强度水平。我们的研究结果表明，该技术的潜在目标应用，如轻量化，以及在相对封闭的水系统中提高强度性能，其中添加到湿端的强度助剂会受到无机离子和有机物质积累的不利影响。

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January 2021

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