基于文献可视化的竹基材料研究热点与趋势分析

李言; 陈然; 宋莎莎

doi:10.12326/j.2096-9694.2024114

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基于文献可视化的竹基材料研究热点与趋势分析
Analysis on Research Hotspot and Trend of Bamboo-Based Materials through Literature Visualization
木质材料科学与应用教育部重点实验室（北京林业大学）
木材科学与工程北京市重点实验室，北京 100083
2025年39卷第3期页码：72-81
DOI： 10.12326/j.2096-9694.2024114
稿件说明：

移动端阅览

李言,陈然,宋莎莎.基于文献可视化的竹基材料研究热点与趋势分析[J].木材科学与技术,2025,39(03):72-81. DOI： 10.12326/j.2096-9694.2024114.

LI Yan,CHEN Ran,SONG Shasha.Analysis on Research Hotspot and Trend of Bamboo-Based Materials through Literature Visualization[J].Chinese Journal of Wood Science and Technology,2025,39(03):72-81. DOI： 10.12326/j.2096-9694.2024114.

摘要

使用CiteSpace软件对2004—2024年中国知网和Web of Science核心期刊数据库收录的竹基材料领域论文进行可视化处理、整理、总结、归纳竹基材料的发展趋势和未来的研究方向，并对年发文量、发文作者和关键词进行分析。研究发现，中国知网和Web of Science发表的关于竹基材料的论文数量整体呈上升趋势；发文作者的合作多集中于特定群体之间，尚未形成紧密的、广泛的作者合作网络。研究机构间的研究网络已初步形成，但机构间的协作仍有待加强。对竹基材料的研究热点逐渐趋于多元化，不仅聚焦于材料本身的性能优化和功能拓展，还涉及标准体系建设、产业化应用和环境可持续发展等多个维度。未来研究将以“以竹代塑”倡议为牵引，通过交叉学科协同创新，推动竹基材料的功能化创新和“以竹代塑”的产品开发。

Abstract

The CiteSpace software was used to visually process

organize

summarize and generalize the research papers in the field of bamboo-based materials included in the core journal databases of China National Knowledge Infrastructure (CNKI) and Web of Science from 2004 to 2024. The development trends and future research directions of bamboo-based materials were also analyzed

and the annual number of published papers

authors and keywords were analyzed. The research finds that the overall number of papers on bamboo-based materials published by CNKI and Web of Science was on the rise. The cooperation among the authors of the published articles was mostly concentrated among specific groups

and a close and extensive network of author collaborations has not yet been formed. The research network in the field of bamboo-based materials among research institutions has been initially formed

but collaboration between institutions still needs to be strengthened. The research hotspots on bamboo-based materials were gradually becoming diversified. They not only focus on the performance optimization and functional expansion of the materials themselves

but also involve multiple dimensions such as the construction of standard systems

industrial applications

and environmental sustainable development. Future research can be driven by the initiative of“Replacing Plastic with Bamboo”

and through interdisciplinary collaborative innovation

promote the functional innovation of bamboo-based materials and the development of“Replacing Plastic with Bamboo”products.

关键词

Keywords

references

于文吉 . 我国重组材料科学技术发展现状与趋势 [J ] . 木材科学与技术 , 2023 , 37 ( 1 ): 1 - 7 .

YU W J . Current status and future trend of science and technology for reconstituted materials in China [J ] . Chinese Journal of Wood Science and Technology , 2023 , 37 ( 1 ): 1 - 7 .

ZHENG Z Y , YAN N N , LOU Z C , et al . Modification and application of bamboo-based materials: a review: Part I: modification methods and mechanisms [J ] . Forests , 2023 , 14 ( 11 ): 2219 .

卿彦 . “双碳”战略目标下木竹基先进功能材料研究进展 [J ] . 中南林业科技大学学报 , 2022 , 42 ( 12 ): 13 - 25 .

QING Y . Advanced functional materials derived from natural wood and bamboo resources under the double carbon strategy in China [J ] . Journal of Central South University of Forestry & Technology , 2022 , 42 ( 12 ): 13 - 25 .

NKEUWA W N , ZHANG J L , SEMPLE K E , et al . Bamboo-based composites: a review on fundamentals and processes of bamboo bonding [J ] . Composites Part B: Engineering , 2022 , 235 : 109776 .

刘峣 , 李妍 , 叶森 . 国内外智能家居研究进展与趋势：基于2013—2023年核心期刊文献的CiteSpace可视化分析 [J ] . 木材科学与技术 , 2024 , 38 ( 3 ): 78 - 87 .

LIU Y , LI Y , YE S . Research progress and trends of smart home: based on visual analysis of domestic and foreign core journal articles from 2013 to 2023 by CiteSpace [J ] . Chinese Journal of Wood Science and Technology , 2024 , 38 ( 3 ): 78 - 87 .

DING D , XIAN M . Research trends and design strategies for bamboo architecture: a bibliometric and systematic review [J ] . Advances in Bamboo Science , 2024 , 8 : 100094 .

米俊 , 张琪 , 王迪 , 等 . 数字赋能应急管理研究可视化分析: 现状、热点及演进趋势 [J ] . 灾害学 , 2024 , 39 ( 2 ): 163 - 171 .

MI J , ZHANG Q , WANG D , et al . Visual analysis of digital enabling emergency management research: current situation, hotspot and evolution trend [J ] . Journal of Catastrophology , 2024 , 39 ( 2 ): 163 - 171 .

吕奕静 , 张蓉 . 近十年国内外在线学习研究综述：基于CiteSpace的可视化分析 [J ] . 成人教育 , 2023 , 43 ( 6 ): 47 - 58 .

于文吉 , 石昌玉 , 魏明 , 等 . 基于响应面法与NSGA-Ⅱ的重组竹翻转夹爪优化设计 [J ] . 包装工程 , 2023 , 44 ( 19 ): 187 - 195 .

YU W J , SHI C Y , WEI M , et al . Optimization design of flipping grippers for bamboo scrimber based on response surface methodology and NSGA-Ⅱ [J ] . Packaging Engineering , 2023 , 44 ( 19 ): 187 - 195 .

苏娜 , 费本华 , 周慧 , 等 . 基于松香改性的圆竹视觉性能 [J ] . 世界竹藤通讯 , 2021 , 19 ( 6 ): 83 - 90 .

SU N , FEI B H , ZHOU H , et al . Effect of rosin modification on the visual characteristics of round bamboo culm [J ] . World Bamboo and Rattan , 2021 , 19 ( 6 ): 83 - 90 .

陈复明 , 王戈 , 程海涛 , 等 . 新型竹纤维复合材料的研发 [J ] . 东北林业大学学报 , 2016 , 44 ( 2 ): 80 - 85 .

CHEN F M , WANG G , CHENG H T , et al . Development of advanced bamboo fiber based composites material [J ] . Journal of Northeast Forestry University , 2016 , 44 ( 2 ): 80 - 85 .

YANG X , HE M , YU T , et al . Research on processing technology of new green and environmentally friendly organized bamboo and wood structure based on ecological perspective [J ] . Fresenius Environmental Bulletin , 2022 , 31 （ 1A ）: 1079 - 1084 .

HUANG B , FANG C H , CHEN L , et al . Analysis of the use rate of equal arc-shaped bamboo splits [J ] . Construction and Building Materials , 2021 , 302 : 124273 .

郭容 , 宋莎莎 , 刘毅 , 等 . 基于CiteSpace的竹藤家具研究可视化分析 [J ] . 家具与室内装饰 , 2023 , 30 ( 8 ): 138 - 142 .

GUO R , SONG S S , LIU Y , et al . Visual analysis of bamboo and rattan furniture research based on CiteSpace [J ] . Furniture & Interior Design , 2023 , 30 ( 8 ): 138 - 142 .

DOE J , SMITH J . Mechanical properties of bamboo-based composite materials [J ] . Journal of Materials in Civil Engineering , 2021 , 33 ( 4 ): 04021001 .

WANG X M , ZHANG L , LIU C . Experimental study on the mechanical properties of bamboo scrimber under different humidity conditions [J ] . Construction and Building Materials , 2023 , 409 : 133739 .

SMITH J , BROWN T , LEE K . Preparation and characterization of bamboo fiber reinforced composites [J ] . Journal of Renewable Materials , 2018 , 10 ( 3 ): 103 - 115 .

穆瑶 , 吴智慧 . 国内外适老智能家居研究进展的CiteSpace可视化分析 [J ] . 木材科学与技术 , 2022 , 36 ( 5 ): 90 - 98 .

MU Y , WU Z H . CiteSpace visual analysis of research progress of smart home for seniors in China and overseas [J ] . Chinese Journal of Wood Science and Technology , 2022 , 36 ( 5 ): 90 - 98 .

张亚梅 , 余养伦 , 于文吉 . 户外用重组竹防蓝变处理工艺及性能 [J ] . 林业科学 , 2021 , 57 ( 12 ): 140 - 146 .

ZHANG Y M , YU Y L , YU W J . Processes and properties of anti-blue stain bamboo scrimber for outdoor application [J ] . Scientia Silvae Sinicae , 2021 , 57 ( 12 ): 140 - 146 .

齐越 , 吴江源 , 任丁华 , 等 . 重组竹制造与应用技术研究进展 [J ] . 林业科学 , 2023 , 59 ( 6 ): 159 - 168 .

QI Y , WU J Y , REN D H , et al . The development in manufacture and application technology of bamboo scrimber [J ] . Scientia Silvae Sinicae , 2023 , 59 ( 6 ): 159 - 168 .

郑皓月 , 刘问 . 表面改性重组竹筋与竹炭砂浆界面粘结性能 [J ] . 复合材料学报 , 2023 , 40 ( 10 ): 5848 - 5858 .

ZHENG H Y , LIU W . Bond performance between surface modified bamboo scrimber bar and bamboo biochar mortar [J ] . Acta Materiae Compositae Sinica , 2023 , 40 ( 10 ): 5848 - 5858 .

李怀瑞 , 越显峰 , 靳肖贝 , 等 . 埃洛石改性酚醛树脂及其载药对重组竹防霉性能的影响 [J ] . 东北林业大学学报 , 2020 , 48 ( 12 ): 96 - 102 .

LI H R , YUE X F , JIN X B , et al . Halloysite modified phenolic resin and its application in bamboo scrimber [J ] . Journal of Northeast Forestry University , 2020 , 48 ( 12 ): 96 - 102 .

徐海宇 , 张蔚 , 姚文斌 , 等 . 长竹纤维/聚乳酸单向复合材料的制备及其性能 [J ] . 塑料 , 2022 , 51 ( 3 ): 50 - 54 .

XU H Y , ZHANG W , YAO W B , et al . Preparation process and properties of BF/PLA unidirectional composite [J ] . Plastics , 2022 , 51 ( 3 ): 50 - 54 .

陶永亮 , 曾成均 . 竹纤维增强聚丙烯复合材料研究与应用进展 [J ] . 世界竹藤通讯 , 2024 , 22 ( 5 ): 111 - 116 .

TAO Y L ， ZENG C J . Research and application progress in bamboo fiber reinforced polypropylene composites [J ] . World Bamboo and Rattan , 2024 , 22 ( 5 ): 111 - 116 .

栗洪彬 , 李炜 , 董璐璐 . 竹片/环氧乙烯基酯树脂复合材料的界面性能研究 [J ] . 玻璃钢/复合材料 , 2015 , ( 8 ): 51 - 54 .

LI H B ， LI W ， DONG L L . Study on interface performance in bamboo reinforced composites [J ] . Composites Science and Engineering , 2015 , ( 8 ): 51 - 54 .

常旬 , 查贵铧 , 孙呵 , 等 . 改性方法对竹束纤维及其增强环氧树脂复合材料性能的影响 [J ] . 塑料工业 , 2023 , 51 ( 1 ): 123 - 129, 178 .

CHANG X , ZHA G H , SUN H , et al . Effects of modification methods on properties of bamboo bundle fiber and its reinforced epoxy resin composites [J ] . China Plastics Industry , 2023 , 51 ( 1 ): 123 - 129, 178 .

曾晓东 , 尹健 , 黄中怡 , 等 . 改性竹纤维增强水泥基复合材料的力学特性 [J ] . 建筑材料学报 , 2023 , 26 ( 3 ): 244 - 250 .

ZENG X D , YIN J , HUANG Z Y , et al . Mechanical properties of modified bamboo fiber reinforced cement matrix composites [J ] . Journal of Building Materials , 2023 , 26 ( 3 ): 244 - 250 .

叶学财 . 家居用填充式竹集成材轻量化结构设计 [J ] . 世界竹藤通讯 , 2024 , 22 ( 4 ): 72 - 77 .

YE X C . Lightweight structure design of filled bamboo glulam for household use [J ] . World Bamboo and Rattan , 2024 , 22 ( 4 ): 72 - 77 .

陈强 , 郎健珂 , 王丽峰 , 等 . 竹-原木组合梁受弯承载力试验与数值模拟 [J ] . 中南林业科技大学学报 , 2020 , 40 ( 4 ): 120 - 126 .

CHEN Q , LANG J K , WANG L F , et al . Experimental andnumericalsimulation on flexural capacity of bamboolog composite beam [J ] . Journal of Central South University of Forestry & Technology , 2020 , 40 ( 4 ): 120 - 126 .

LI Z Z , LUAN Y , HU J B , et al . Bamboo heat treatments and their effects on bamboo properties [J ] . Construction and Building Materials , 2022 , 331 : 127320 .

LI W J , LIU M H , WANG H K , et al . The furfuryl alcohol (FA) resin distribution in the furfurylated bamboo [J ] . Holzforschung , 2021 , 75 ( 2 ): 187 - 194 .

LIN J Y , YANG Z X , HU X X , et al . The effect of alkali treatment on properties of dopamine modification of bamboo fiber/polylactic acid composites [J ] . Polymers , 2018 , 10 ( 4 ): 403 .

SEWAR Y , AMRAN M , AVUDAIAPPAN S , et al . Bonding strength performance of bamboo-based composite materials: an in-depth insight for sustainable construction applications [J ] . Heliyon , 2024 , 10 ( 13 ): e32155 .

TIAN W Q , GAO Q M , TAN Y L , et al . Bio-inspired beehive-like hierarchical nanoporous carbon derived from bamboo-based industrial by-product as a high performance supercapacitor electrode material [J ] . Journal of Materials Chemistry A , 2015 , 3 ( 10 ): 5656 - 5664 .

KUSHWAHA P K , CHAWLA V , NANDANWAR A , et al . Study on the effect of nanoparticles on fire resistance and smoke suppression properties of bamboo strand lumber [J ] . Journal of the Indian Academy of Wood Science , 2021 , 18 ( 1 ): 32 - 38 .

ZHANG J Y , ZHANG B , CHEN X F , et al . Antimicrobial bamboo materials functionalized with ZnO and graphene oxide nanocomposites [J ] . Materials , 2017 , 10 ( 3 ): 239 .

KUSHWAHA P K , KUMAR R . Studies on water absorption of bamboo-epoxy composites: Effect of silane treatment of mercerized bamboo [J ] . Journal of Applied Polymer Science , 2010 , 115 ( 3 ): 1846 - 1852 .

SÁ RIBEIRO M G , MIRANDA I P A , KRIVEN W , et al . High strength and low water absorption of bamboo fiber-reinforced geopolymer composites [J ] . Construction and Building Materials , 2024 , 411 : 134179 .

AMEDE E A , HAILEMARIAMA E K , HAILEMARIAM L M , et al . A review of codes and standards for bamboo structural design [J ] . Advances in Materials Science and Engineering , 2021 , 2021 ( 1 ): 4788381 .

TAHMASEBINIA F , MA Y C , JOSHUA K , et al . Sustainable architecture creating Arches using a bamboo grid shell structure: numerical analysis and design [J ] . Sustainability , 2021 , 13 ( 5 ): 2598 .

孙正军 , 程强 , 江泽慧 . 竹质工程材料的制造方法与性能 [J ] . 复合材料学报 , 2008 , 25 ( 1 ): 80 - 83 .

SUN Z J , CHENG Q , JIANG Z H . Processing and properties of engineering bamboo products [J ] . Acta Materiae Compositae Sinica , 2008 , 25 ( 1 ): 80 - 83 .

王春红 , 刘胜凯 . 碱处理对竹纤维及竹纤维增强聚丙烯复合材料性能的影响 [J ] . 复合材料学报 , 2015 , 32 ( 3 ): 683 - 690 .

WANG C H , LIU S K . Effects of alkali treatment on properties of bamboo fiber and bamboo fiber reinforced polypropylene composites [J ] . Acta Materiae Compositae Sinica , 2015 , 32 ( 3 ): 683 - 690 .

陈梦瑶 , 张仲凤 . 材质特性在家具设计中的运用 [J ] . 包装工程 , 2017 , 38 ( 2 ): 141 - 145 .

CHEN M Y , ZHANG Z F . Application of material characteristics in furniture design [J ] . Packaging Engineering , 2017 , 38 ( 2 ): 141 - 145 .

左光之 , 付岚岚 , 邓书音 . 竹材在现代建筑设计中的应用探索 [J ] . 城市建筑 , 2019 , 16 ( 3 ): 76 - 77 .

ZUO G Z , FU L L , DENG S Y . The application of bamboo in the modern aarchitectural design [J ] . Urbanism and Architecture , 2019 , 16 ( 3 ): 76 - 77 .

刘远贵 , 孙永平 , 柴希娟 , 等 . 基于竹粉表/界面调控的竹塑复合材料的制备及性能分析 [J ] . 塑料工业 , 2024 , 52 ( 5 ): 83 - 89 .

LIU Y G , SUN Y P , CHAI X J , et al . Preparation and performances of bamboo-plastic composites based on surface and interfacial modulations of bamboo powders [J ] . China Plastics Industry , 2024 , 52 ( 5 ): 83 - 89 .

唐政烽 , 单奇峰 , 童科挺 , 等 . 钢-竹组合双室箱形梁受弯性能有限元分析 [J ] . 工业建筑 , 2024 , 54 ( 7 ): 69 - 77 .

TANG Z F , SHAN Q F , TONG K T , et al . Finite element analysis of bending performance of steel-bamboo composite double-chamber box beams [J ] . Industrial Construction , 2024 , 54 ( 7 ): 69 - 77 .

FUENTES M A , GARCÍA J J , NAVARRO C . Analysis of the mechanical behavior of composite materials under dynamic loads [J ] . Journal of Composite Materials , 2009 , 43 ( 5 ): 601 - 608 .

KUMAR H , SIDDARAMAIAH . Study of chemical and tensile properties of polyurethane and polyurethane/polyacrylonitrile coated bamboo fibers [J ] . Journal of Reinforced Plastics and Composites , 2005 , 24 ( 2 ): 209 - 213 .

MURALI MOHAN RAO K , MOHANA RAO K , RATNA PRASAD A V . Fabrication and testing of natural fibre composites: Vakka, sisal, bamboo and banana [J ] . Materials & Design , 2010 , 31 ( 1 ): 508 - 513 .

IBRAHIM I D , JAMIRU T , SADIKU R E , et al . The use of polypropylene in bamboo fibre composites and their mechanical properties-A review [J ] . Journal of Reinforced Plastics and Composites , 2015 , 34 ( 16 ): 1347 - 1356 .

VERMA C S , SHARMA N K , CHARIAR V M , et al . Comparative study of mechanical properties of bamboo laminae and their laminates with woods and wood based composites [J ] . Composites Part B: Engineering , 2014 , 60 : 523 - 530 .

ZHANG L , WANG Y , CHEN H . Structural optimization and performance enhancement of bamboo-based composites [J ] . Construction Materials , 2014 , 167 ( 3 ): 102 - 115 .

RAO F , ZHU X G , ZHANG Y H , et al . Water resistance and mechanical properties of bamboo scrimber composite made from different units of Bambusa chungii as a function of resin content [J ] . Construction and Building Materials , 2022 , 335 : 127250 .

TANG L , XIANG Z J , DAI J H , et al . Dandelion inspired multi-functional superhydrophobic bamboo scrimber with desirable humidity resistance [J ] . Industrial Crops and Products , 2024 , 222 : 119881 .

YANG F , HU A L , DU C G , et al . Preeminent flame-retardant and smoke suppression properties of PCaAl-LDHs nanostructures on bamboo scrimber [J ] . Molecules , 2023 , 28 ( 11 ): 4542 .

ZHANG H J , ZHANG X , DING Y L , et al . Charting the research status for bamboo resources and bamboo as a sustainable plastic alternative: a bibliometric review [J ] . Forests , 2024 , 15 ( 10 ): 1812 .

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