研究研磨时间对替代原料造纸性能的影响

Z. Galimova, H. Babakhanova, M. Abdunazarov, I. Ismoilov, M. Mikhaleva
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引用次数: 0

摘要

原料和再生纤维材料都用于造纸。后者的使用百分比的增加是由于它们的纸张成型性能,可用性和低成本。探讨了利用桑树小树枝树皮内层纸浆的可能性。桑叶是蚕丝生产的主要原料,但桑枝除叶后没有实际的工业用途。因此,回收废物-桑枝-用于纸浆生产是相关的,因为它旨在解决原料和环境问题。本工作的目的是利用当地的原材料进行纸张生产,研究研磨工艺的加工方法对纸张成型性能的影响。在研磨过程中,纤维变化的机械过程主要决定纸张的结构,而胶体物理过程-纤维的结合和形成坚固、均匀和光滑的纸张结构的能力。纸张的结构有利于过量的或“选择性的”墨水吸收到纸张的孔隙中,从而在印刷过程中预先决定了复制的质量。采用了测定纸的物理力学性能的方法,研究了在不同工艺模式下铸造的样品表面结构的变化。研究结果表明,加入桑树小树枝树皮内层的纤维素团块有助于获得坚固的纸张。这种纸含有来自桑树树皮内层的棉花和纤维素,其光学特性可以用添加的纤维本身的白度来解释。在300 CWR的重磨度下,纤维素纤维的分裂纤维和强交织纤维之间的结合可以解释纸张的强度特性。已经确定,从桑树树皮的内层向纸浆质量中添加超过30%的纤维素是不可取的,因为这对纸的白度有不利影响
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STUDY ON THE GRINDING TIME DURATION IMPACT ON THE PROPERTIES OF PAPER FROM ALTERNATIVE RAW MATERIALS
Both raw and recycled fiber materials are used for paper production. The increase in percentage use of the latter is due to their paper-forming properties, availability and low cost. The article explores the possibility of using pulp from the inner layer of mulberry twig bark. Mulberry twigs, after removing leaves, which are the main raw material in silk production, have no practical industrial application. Recycling waste - mulberry branches - for the production of pulp is therefore relevant as it is aimed at solving raw material and environmental problems. The purpose of this work is to use local raw materials for paper production, study the impact of processing method of the grinding process on paper forming properties. During grinding the mechanical processes of changes of fibers determine mainly structure of a paper sheet, and colloidal-physical processes - bind and ability of fibers to form strong, homogenous and smooth structure of paper. The structure of the sheet of paper facilitates excessive or "selective" ink absorption into the pores of the paper and thus predetermines the quality of reproduction during the printing process. Methods for determining the physical and mechanical properties of papers were used in this work, and changes in the surface structure of samples cast at various technological modes of the milling process were studied. The results of the study revealed that the addition of cellulose mass from the inner layer of mulberry twig bark helps to obtain a strong paper. The optical properties of the paper, which contains cotton and cellulose from the inner layer of mulberry branch bark, are explained by the whiteness of the added fibers themselves. The strength properties of the paper at a weight grinding degree of 300 CWR are explained by the bond between the split and strongly interwoven fibers of the cellulose fibers. It has been established that the addition of more than 30% cellulose from the inner layer of the mulberry branch bark to the paper pulp mass is undesirable, as this adversely affects the whiteness of the paper
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