Modification of rosin resin acids to improve their hydrophobizing action on paper and cardboard

Q4 Chemistry
V. Fleisher, N. Chornaya
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引用次数: 0

Abstract

The modification of rosin resin acids, which improves their hydrophobic effect on paper and cardboard, is based on the implementation of 6 stages. Control of chemical processes at each stage is carried out by monitoring and regulating temperature and flow parameters, which determine the achievement of the required physical and chemical properties and composition of intermediates and final substance. One of the main indicators is the acid number, which for the final substance should be 60–70 mg KOH/g, which corresponds to the content of free resin acids in the functional substance of 40–45 %. The fulfillment of the specified temperature and consumption parameters for the modification of resin acids of rosin and the achievement of the necessary physicochemical properties of intermediates at each stage ensures the production of a functional substance with an improved hydrophobic effect on paper and cardboard. Compared to the traditionally used TM adhesive-paste, the developed functional substance in the production of paper with absorbency at one-sided wetting of not more than 21 g/m2 provides a reduction in the content of particles of the dispersed phase of the rosin emulsion by 1.4–2.0 times, which indicates its improved properties, and maximum preservation of the original strength of the paper by reducing the distance between the fibers due to a 3.3–3.8 times reduction (from 4200–5000 to 1100–1480 nm) in the size of sizing complexes.
改性松香树脂酸,以提高其对纸和纸板的疏水作用
松香树脂酸的改性,提高其对纸张和纸板的疏水效果,是基于6个阶段的实施。每个阶段的化学过程控制是通过监测和调节温度和流量参数来进行的,这些参数决定了中间体和最终物质所需的物理和化学性质以及组成的实现。其中一个主要指标是酸值,最终物质的酸值为60-70 mg KOH/g,对应于功能物质中游离树脂酸的含量为40 - 45%。实现松香树脂酸改性的指定温度和消耗参数,以及在每个阶段实现中间体的必要物理化学性质,确保生产具有改进的疏水效果的功能物质在纸和纸板上。与传统的TM胶粘剂相比,所研制的单侧湿吸湿性不大于21 g/m2的功能物质使松香乳液分散相颗粒含量降低1.4 ~ 2.0倍,性能得到改善。由于上浆配合物的尺寸减少了3.3-3.8倍(从4200-5000 nm到1100-1480 nm),最大限度地保留了纸张的原始强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
0.30
自引率
0.00%
发文量
38
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