Preparation and Reinforcement of Paper Made of Banana Pseudostem Fibers Blended with Bamboo Pulp Fibers

LIU Zhenzhen; LIU Mengyu; LIU Xinge; CHEN Fuming; MA Qianli

doi:10.12326/j.2096-9694.2026001

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Preparation and Reinforcement of Paper Made of Banana Pseudostem Fibers Blended with Bamboo Pulp Fibers
Institute of New Bamboo and Rattan Based Biomaterials，International Center for Bamboo and Rattan
Key Laboratory of National Forestry and Grassland Administration on Bamboo & Rattan Science and Technology，Beijing 100102，China
Vol. 40, Issue 2, Pages: 12-22(2026)
DOI： 10.12326/j.2096-9694.2026001
稿件说明：

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刘真真,刘孟钰,刘杏娥等.香蕉假茎纤维配抄竹浆纤维制备纸张协同增强机制研究[J].木材科学与技术,2026,40(02):12-22. DOI： 10.12326/j.2096-9694.2026001.

LIU Zhenzhen,LIU Mengyu,LIU Xinge,et al.Preparation and Reinforcement of Paper Made of Banana Pseudostem Fibers Blended with Bamboo Pulp Fibers[J].Chinese Journal of Wood Science and Technology,2026,40(02):12-22. DOI： 10.12326/j.2096-9694.2026001.

摘要

以香蕉（

Musa acuminata

）假茎为原料，采用常温碱预浸泡-碱蒸煮-H

漂白工艺制备香蕉假茎纤维，并将其与竹浆纤维混合抄造纸张，研究香蕉假茎纤维的打浆度、添加量对纸张强度等性能的影响规律及增强机制。结果表明，该工艺制备的香蕉假茎纤维分离效果好，打浆处理对纤维形态参数影响显著（

＜0.05），纤维平均长度、宽度和长宽比分别为2.65~2.99 mm、20.6~21.4 μm，127.4~145.1，纤维素含量和结晶度分别高达88.4%和78.0%。相较于纯竹浆纸（打浆度40 °SR），仅添加20%~30%质量分数、打浆度为37 °SR的香蕉假茎纤维配抄竹浆纤维纸张的抗张指数、撕裂指数、耐破指数和耐折次数分别增加3.1%~7.0%、15.4%~30.3%、27.6%~27.8%和1.3~1.6倍，配抄纸张机械强度指标显著提升（

＜0.05），同时纸张润湿性和透气度降低。香蕉假茎长纤维发挥柔韧性起到骨架支撑作用，竹浆短纤维填充空隙缺陷减少应力集中现象出现的概率，“长-短”互补的多尺度三维交织结构赋予纸张挺度的同时提升其强度，在微观尺度上微纤丝三维缠结形成的整体结构赋予配抄纸张良好的强度。香蕉假茎纤维可作为高性能纸张的生物质配抄原料，有效提升竹浆纸张的机械强度，为香蕉假茎农作物废弃资源的高值化利用提供科学依据。

Abstract

Banana (

Musa acuminata

) pseudostem fibers were used as the raw material which were prepared through pre-alkali soaking

high-temperature alkaline cooking

and hydrogen peroxide

bleaching. Papers were then prepared by blending banana pseudostem fibers with bamboo pulp fibers. The effects of the beating degree and banana pseudostem fibers dosage on the mechanical properties and reinforcement mechanism of paper were investigated. The results demonstrated that the banana pseudostem fibers exhibited good separation. The fiber morphological parameters of banana pseudostem fibers and bamboo pulp fibers were significantly changed with increasing of beating degree (

＜0.05). Their average length ranged from 2.65 to 2.99 mm

average width from 20.6 to 21.4 μm

and average length-to-width ratio from 127.4 to 145.1. Notably

the cellulose content and crystallinity of banana pseudostem fibers were 88.4% and 78.0%

respectively. When banana pseudostem fibers (37 °SR

20%~30%) were mixed with bamboo pulp fibers (40 °SR)

the properties of paper were improved compared with pure bamboo pulp paper. Specifically

the tensile index increased by 3.1%~7.0%

the tear index by 15.4%~30.3%

the burst index by 27.6%~27.8%

and the folding endurance by a factor of 1.3~1.6 (

＜0.05). The wettability and air permeability of paper were reduced. The long fibers from banana pseudostem provided flexibility and acted as a skeletal support

while the short fibers from bamboo pulp filled voids and defects to reduce the probability of stress concentration. The“long-short”complementary multi-scale three-dimensional intertwined structure imparted both stiffness and strength to the paper. Furthermore

the overall structure formed by the three-dimensional entanglement of microfibers at the microscopic scale endowed the composite paper with good strength. Banana pseudostem fibers could serve as one of the biomass blending raw materials for high-performance paper

effectively improving the physical strength of bamboo pulp paper

thereby providing a scientific basis for the high-value utilization of agricultural waste resources from banana pseudostems.

关键词

Keywords

references

中国造纸学会 . 中国造纸年鉴-2024 [M ] . 北京 : 中国轻工业出版社 , 2024 .

国家林业和草原局 , 国家金融监督管理总局 . 2024中国森林保险发展报告 [M ] . 北京 : 中国林业出版社 , 2025 .

刘一山 , 张俊苗 , 房桂干 , 等 . 推行竹浆纸一体化实现竹子造纸持续发展 [J ] . 中国造纸 , 2023 , 42 ( 8 ): 55 - 60 .

LIU Y S , ZHANG J M , FANG G G , et al . Implementing bamboo-pulp-paper integration and promoting sustainable development of bamboo papermaking [J ] . China Pulp & Paper , 2023 , 42 ( 8 ): 55 - 60 .

李好 , 陈其兵 . 纸浆竹林研究现状与发展趋势 [J ] . 中国造纸学报 , 2024 , 39 ( 1 ): 21 - 26 .

LI H , CHEN Q B . Research status and development trend of pulp and bamboo forest [J ] . Transactions of China Pulp and Paper , 2024 , 39 ( 1 ): 21 - 26 .

易晓辉 , 李英 , 雷心瑶 . 传统生料法与熟料法手工竹纸性能差异研究 [J ] . 中国造纸学报 , 2022 , 37 ( 3 ): 78 - 85 .

YI X H , LI Y , LEI X Y . Study on performance difference of handmade bamboo paper between traditional uncooked process and cooking process [J ] . Transactions of China Pulp and Paper , 2022 , 37 ( 3 ): 78 - 85 .

许跃 , 陈雪峰 , 毛宗久 , 等 . 氧漂慈竹硫酸盐浆制备卫生纸和防油纸的工艺 [C ] // 中国造纸学会第二十届学术年会论文集 , 2022 : 34 - 38 .

曹双平 . 植物单根纤维拉伸性能测试与评价 [D ] . 北京 : 中国林业科学研究院 , 2010 .

朱宗伟 . 不同竹龄竹材纤维形态及制浆造纸性能的研究 [D ] . 广州 : 华南理工大学 , 2022 .

姜峰 , 唐敏 , 赵举 , 等 . 竹浆与油樟渣浆配抄瓦楞原纸及强度性能研究 [J ] . 中国造纸 , 2024 , 43 ( 4 ): 63 - 70 .

JIANG F , TANG M , ZHAO J , et al . Study on preparation and strength properties of corrugated medium using bamboo pulp and camphor residue pulp [J ] . China Pulp & Paper , 2024 , 43 ( 4 ): 63 - 70 .

殷沛沛 , 刘莹莹 , 赵梦醒 , 等 . 不同外加纤维对烟草复合滤嘴棒用纸性能的影响 [J ] . 天津科技大学学报 , 2024 , 39 ( 3 ): 41 - 48, 55 .

YIN P P , LIU Y Y , ZHAO M X , et al . Effects of different external fibers on the quality of tobacco composite filter rod paper [J ] . Journal of Tianjin University of Science & Technology , 2024 , 39 ( 3 ): 41 - 48, 55 .

陈云 , 王修朋 , 刘一山 . 竹浆配抄阔叶木浆生产白牛皮纸 [J ] . 纸和造纸 , 2014 , 33 ( 7 ): 1 - 2 .

CHEN Y , WANG X P , LIU Y S . Production of white kraft paper using bamboo pulp and hard wood pulp [J ] . Paper and Paper Making , 2014 , 33 ( 7 ): 1 - 2 .

贾剑 , 杨忠奎 , 彭成 , 等 . 用全漂白竹浆或与蔗渣浆配抄白色牛皮纸的研究 [J ] . 纸和造纸 , 2017 , 36 ( 6 ): 14 - 16 .

JIA J , YANG Z K , PENG C , et al . Study on the white kraft paper preparation using bleached bamboo pulp and bagasse pulp [J ] . Paper and Paper Making , 2017 , 36 ( 6 ): 14 - 16 .

刘明阳 . 麦草高得率浆防油性能及制浆工艺改进研究 [D ] . 天津 : 天津科技大学 , 2024 .

欧智宏 , 雷婉若 , 李佳豪 , 等 . 微波膨化处理对蔗渣纤维在回用过程中品质衰变的抑制作用研究 [J ] . 中国造纸 , 2025 , 44 ( 1 ): 141 - 147, 154 .

OU Z H , LEI W R , LI J H , et al . Study on the inhibitory effect of microwave puffing treatment on the quality deterioration of bagasse fibers during reuse process [J ] . China Pulp & Paper , 2025 , 44 ( 1 ): 141 - 147, 154 .

贾倩倩 , 陈嘉川 , 张凯 , 等 . 生物酶预处理改善麦草氧碱制浆性能的研究 [J ] . 中国造纸学报 , 2022 , 37 ( 4 ): 61 - 68 .

JIA Q Q , CHEN J C , ZHANG K , et al . Research on improving oxygen-alkali pulping performance of wheat straw by biological enzyme pretreatment [J ] . Transactions of China Pulp and Paper , 2022 , 37 ( 4 ): 61 - 68 .

RASHID M M , ABIR N , ISLAM S , et al . Extraction and characterization of a noble cellulose-rich cotton-like convoluted, lightweight and soft fiber from the floral part of the banana plant pseudo stem [J ] . Cellulose , 2025 , 32 ( 5 ): 3027 - 3042 .

BADANAYAK P , JOSE S , BOSE G . Banana pseudostem fiber: a critical review on fiber extraction, characterization, and surface modification [J ] . Journal of Natural Fibers , 2023 , 20 ( 1 ): 2168821 .

ATILGAN A , KRAKOWIAK-BAL A , ERTOP H , et al . The energy potential of waste from banana production: a case study of the Mediterranean Region [J ] . Energies , 2023 , 16 ( 14 ): 5244 .

WANI S , PATIL D . A review on banana pseudostem waste utilization and processing [J ] . Journal of Interdisciplinary Cycle Research , 2023 , 15 ( 7 ): 478 - 491 .

TRIPATHI S K , BHARDWAJ N K , CHECHI S , et al . Suitability of banana stem pulp as replacement of softwood pulp for making superior grade unbleached paper from agro residue pulp [J ] . Appita Journal , 2019 , 72 ( 3 ): 163 - 178 .

盛占武 . 香蕉茎秆纤维脱胶、改性及其结构性能分析 [D ] . 武汉 : 华中农业大学 , 2018 .

张美玲 , 鲁张含悦 , 李翌溶 , 等 . 香蕉纤维高效低耗脱胶工艺的参数优选 [J ] . 农业工程学报 , 2025 , 41 ( 1 ): 323 - 329 .

ZHANG M L , LU Z , LI Y R , et al . Optimizing the parameters for high efficiency and low consumption degumming of banana fiber [J ] . Transactions of the Chinese Society of Agricultural Engineering , 2025 , 41 ( 1 ): 323 - 329 .

周静 , 沈葵忠 , 房桂干 , 等 . 漂白竹浆疏水改性纳米纤丝化纤维素的制备和表征 [J ] . 林业工程学报 , 2017 , 2 ( 2 ): 101 - 106 .

ZHOU J , SHEN K Z , FANG G G , et al . Preparation and characterization of hydrophobic nanofibrillated cellulose fiber from bleached bamboo pulp [J ] . Journal of Forestry Engineering , 2017 , 2 ( 2 ): 101 - 106 .

于昕樱 , 李英教 , 徐树英 . 香蕉茎秆纤维提取工艺优化及其表征 [J ] . 生物质化学工程 , 2024 , 58 ( 2 ): 31 - 38 .

YU X Y , LI Y J , XU S Y . Optimization of extraction process of banana pseudostem fibers and its characterization [J ] . Biomass Chemical Engineering , 2024 , 58 ( 2 ): 31 - 38 .

徐丰 , 王东兴 , 慈晓雷 , 等 . 含木质素的纳米纤维素/聚吡咯复合膜的制备及其电容性能研究 [J ] . 中国造纸 , 2025 , 44 ( 10 ): 105 - 113 .

XU F , WANG D X , CI X L , et al . Preparation and capacitive performance study of the lignin-containing cellulose nanofibril/polypyrrole composite film [J ] . China Pulp & Paper , 2025 , 44 ( 10 ): 105 - 113 .

宋学翠 , 管福成 , 郭静 , 等 . 海藻酸钠/羊毛角蛋白纤维的氢键作用及其结构与性能 [J ] . 大连工业大学学报 , 2022 , 41 ( 2 ): 123 - 128 .

SONG X C , GUAN F C , GUO J , et al . The effect of hydrogen bonding in sodium alginate/wool keratin fibers on their structures and properties [J ] . Journal of Dalian Dalian Polytechnic University , 2022 , 41 ( 2 ): 123 - 128 .

王丽珍 , 李晓天 , 王俊跃 . TEMPO氧化结合高压均质制备向日葵秸皮纤维素纳米纤维 [J ] . 中国造纸学报 , 2025 , 40 ( 2 ): 26 - 33 .

WANG L Z , LI X T , WANG J Y . Preparation of sunflower straw rind cellulose nanofibers by TEMPO oxidation combined with high-pressure homogenization [J ] . Transactions of China Pulp and Paper , 2025 , 40 ( 2 ): 26 - 33 .

TAER E , AFDAL YUSRA D , AMRI A , et al . The synthesis of activated carbon made from banana stem fibers as the supercapacitor electrodes [J ] . Materials Today: Proceedings , 2021 , 44 : 3346 - 3349 .

彭磊 , 高萌 , 付强 , 等 . 短切纤维结晶度对间位芳纶绝缘纸性能的影响 [J ] . 绝缘材料 , 2025 , 58 ( 5 ): 15 - 21 .

PENG L , GAO M , FU Q , et al . Effect of crystallinity of chopped fibers on properties of meta-aramid insulation paper [J ] . Insulating Materials , 2025 , 58 ( 5 ): 15 - 21 .

KUMAR A , SINGH B P , JAIN R K , et al . Banana fibre ( musa sapientum ): “a suitable raw material for handmade paper industry via enzymatic refining” [J ] . International Journal of Engineering Research & Technology , 2013 , 2 ( 10 ): 2278 - 0181 .

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