Surface Treatment of Cardboard with Plant and Bacterial Derived Nanocellulose Suspensions

IF 0.2 Q4 FORESTRY
Еvgeniy А. Toptunov, Yuliya V. Sevastyanova, Ksenia Vashukova
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引用次数: 0

Abstract

This study investigates powdered cellulose materials, particularly nanocellulose derived from plant and bacterial sources. The nanocellulose was generated by hydrolyzing bleached sulphate softwood and hardwood pulp samples with strong acids. The original materials are present in the product lines of leading Russian pulp and paper companies. The bacterial cellulose was produced under laboratory conditions from Medusomyces gisevii. The dimensional parameters of the nanocellulose samples were evaluated using electron microscopy, and the degree of polymerization was measured by determining the viscosity of the cellulose solutions in cadoxene. The bleached softwood pulp had a nanocellulose particle length of 80–200 nm, a particle diameter of 80–100 nm, and a degree of polymerization of 60. The bleached hardwood pulp had a particle length of 80–150 nm, a particle diameter of 70–100 nm, and a degree of polymerization of 50. The bacterial nanocellulose had a particle length of 120–250 nm, a particle diameter of 70–120 nm, and a degree of polymerization of 110. Suspensions of various concentrations (from 1 to 10 %) were prepared from nanocellulose samples, which were subsequently used as reinforcing additives in cardboard samples. The additive was applied to the surface in one or two layers. Additives of nanocellulose preparations reduced the breaking length (from 9.6 to 40.4 %) along with an increase in cardboard density (from 6.3 to 23.8 %), tensile rigidity (from 14.0 to 25.0 %) and bursting strength (up to 31.9 %). The best results were obtained by applying a nanocellulose suspension of bleached softwood pulp to the board surface in two layers: a 9.6 % decrease in breaking length was observed with an increase in density of 23.8 %, tensile rigidity of 25.0 %, and bursting resistance of 31.9 % relative to the control sample. Therefore, the study showed the possibility of using nanocellulose suspensions derived from plants and bacterial sources by acid hydrolysis for the surface treatment of cardboard. For citation: Toptunov Е.А., Sevastyanova Yu.V., Vashukova K.S. Surface Treatment of Cardboard with Plant and Bacterial Derived Nanocellulose Suspensions. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 3, pp. 162–172. (In Russ.). https://doi.org/10.37482/0536-1036-2023-3-162-172
植物和细菌来源的纳米纤维素悬浮液对纸板表面的处理
本研究研究了粉末状纤维素材料,特别是来源于植物和细菌的纳米纤维素。采用强酸水解漂白过的硫酸盐软木浆和硬木纸浆制备纳米纤维素。原始材料存在于俄罗斯领先的纸浆和造纸公司的产品线中。在实验室条件下,以吉色美杜氏菌为原料制备细菌纤维素。利用电子显微镜对纳米纤维素样品的尺寸参数进行了评价,并通过测定纤维素溶液在卡多辛中的粘度来测定聚合度。漂白后的针叶木浆纳米纤维素颗粒长度为80 ~ 200 nm,粒径为80 ~ 100 nm,聚合度为60。漂白后的硬木纸浆颗粒长度为80 ~ 150 nm,粒径为70 ~ 100 nm,聚合度为50。细菌纳米纤维素的颗粒长度为120 ~ 250 nm,粒径为70 ~ 120 nm,聚合度为110。从纳米纤维素样品中制备不同浓度的悬浮液(从1%到10%),随后将其用作纸板样品中的增强添加剂。添加剂分一层或两层涂在表面。纳米纤维素制剂的添加剂减少了断裂长度(从9.6%到40.4%),同时增加了纸板密度(从6.3%到23.8%),拉伸刚度(从14.0%到25.0%)和破裂强度(高达31.9%)。将漂白后的软木纸浆纳米纤维素悬浮液分两层涂在纸板表面,效果最佳:与对照样品相比,断裂长度减少9.6%,密度增加23.8%,拉伸刚度提高25.0%,抗破裂能力提高31.9%。因此,该研究表明,通过酸水解从植物和细菌来源提取的纳米纤维素悬浮液用于纸板表面处理的可能性。引用:Toptunov Е.А。, Sevastyanova Yu.V。,陈国华。植物和细菌源纳米纤维素悬浮液对纸板表面处理的研究。俄罗斯林业杂志,2023年第1期。3,第162-172页。(俄国人)。https://doi.org/10.37482/0536-1036-2023-3-162-172
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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