Hydrophobization and strengthening of cellulose materials from secondary resources

Q4 Chemistry
K. Babakhanova, A. A. Sadriddinov, D. Abdiraxmanova, I. Ismailov, M. Babakhanova
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引用次数: 0

Abstract

The influence of the sizing agent and filler on the physical-mechanical and surface properties of paper from the cellulose mass of the inner layer of the bark of mulberry tree branches has been studied. According to standard methods, the mechanical strength and absorbency were studied. Surface absorbency for one-side wetting was determined by the method of Cobb(30), by determining the mass of water absorbed by the paper surface when wetting one side of the test sample. It was found that it is advisable to add a sizing agent in the range from 1 to 1.5 g per 100 g of dry cellulose raw materials, since an increase in the additive to 2 g helps to reduce the interfiber bonding forces by 21 %. The addition of 6 g of kaolin affects the distance between the fibers, which reduces the mechanical adhesive forces by 12.5 %. During the analysis of the surface properties of paper samples, the sizing efficiency was found to be from 22.5 to 30 % with an increase in the addition of sizing glue, which can be explained by densification of the structure, which prevents the penetration of aqueous solutions. The addition of 2 to 6 g of kaolin also increases water resistance from 17.5 to 25 %. With the help of a mathematical model, rational values of absorbency were revealed with a composition of 92 %, with a sizing agent of 1.5 g and an amount of filler of 4 g. The resulting mathematical model can be used as the basis for controlling the surface characteristics of paper during its production.
二次资源纤维素材料的疏水性和强化
研究了施胶剂和填料对桑树树皮内层纤维素块造纸的物理力学性能和表面性能的影响。按照标准方法对其机械强度和吸光度进行了研究。单面润湿的表面吸水性由Cobb(30)的方法测定,通过测定纸张表面在润湿测试样品的一面时所吸收的水的质量。研究发现,每100克干燥纤维素原料中添加1至1.5克的施胶剂是可取的,因为添加量增加到2克有助于降低21%的纤维间结合力。6 g高岭土的加入影响了纤维之间的距离,使机械粘附力降低了12.5%。通过对纸样表面性能的分析,发现随着上浆胶添加量的增加,上浆效率从22.5%到30%不等,这可以解释为结构致密化,阻止了水溶液的渗透。加入2至6克高岭土也能使水阻力从17.5%提高到25%。通过数学模型,得出了在配比为92%、浆料用量为1.5 g、填料用量为4 g的条件下,吸光度的合理值。所建立的数学模型可作为生产过程中控制纸张表面特性的依据。
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来源期刊
CiteScore
0.30
自引率
0.00%
发文量
38
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