国家重点研发计划林业专项赋能木材加工产业创新发展

韩雁明; 吕斌; 储富祥

doi:10.12326/j.2096-9694.2025002

“木质材料绿色制造”专栏 | 浏览量 : 0 下载量: CSCD: 0 CNKI被引量: 0 Crossref: 0 Wos: 0 Scopus: 0 更多指标

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国家重点研发计划林业专项赋能木材加工产业创新发展
Special Forest Project in National Key Research and Development Program - Empowering Innovation of Wood Processing Industry
1.中国林业科学研究院木材工业研究所，北京 100091
2.中国林业科学研究院，北京 100091
2025年39卷第1期页码：1-9
DOI： 10.12326/j.2096-9694.2025002
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韩雁明,吕斌,储富祥.国家重点研发计划林业专项赋能木材加工产业创新发展[J].木材科学与技术,2025,39(01):1-9. DOI： 10.12326/j.2096-9694.2025002.

HAN Yanming,LYU Bin,CHU Fuxiang.Special Forest Project in National Key Research and Development Program - Empowering Innovation of Wood Processing Industry[J].Chinese Journal of Wood Science and Technology,2025,39(01):1-9. DOI： 10.12326/j.2096-9694.2025002.

摘要

我国是世界林产品的生产、消费和贸易大国，针对产业高质量发展需求，国家重点研发计划林业专项统筹部署创新研究任务，构建以应用场景和问题导向为目标的项目实施机制，全产业链一体化组织，集聚力量进行原创性引领性科技攻关，突破关键核心技术，创制重大产品，并在企业开展大规模产业化示范，确保项目研究成果与行业企业需求精准对接，并通过项目研究提升企业的技术创新能力和综合竞争力，引领木材加工产业绿色高质量发展，全面提升产业现代化水平。总结国家重点研发计划林业专项中木竹材加工领域的研究进展与成果，为木竹材加工产业的技术创新与绿色转型提供科学支撑，同时为林业产业的现代化发展与相关领域的技术改造与产业升级提供参考和借鉴。

Abstract

China is the world’s largest manufacturer

consumer

and trader of wood-based materials and products. In response to the demands for high-quality products

the special forest project of National Key Research and Development Program of China (NKRDP) has coordinated and deployed innovative research tasks

established a project implementation mechanism with application scenarios and problem orientation as the goal

integrated the entire industry chain

gathered forces for original and leading scientific and technological research

broke through key core technologies

created major products

and carried out large-scale industrialization demonstrations in enterprises to ensure that project research results are accurately met with the industry’s needs. Through research projects

the technological innovation ability and comprehensive competitiveness of enterprises are enhanced

leading to the green and high-quality development of the wood processing industry and comprehensively improving the level of industrial modernization. This paper reviews the progresses in the wood and bamboo processing field under the NKRDP

analyzes the current technological level and development opportunities in China’s wood and bamboo processing industry

providing scientific support for the technological innovation and green transformation of the wood and bamboo processing industry

as well as reference and inspiration for the modernization development of the forest industry and the technological transformation and industrial upgrading in related fields.

关键词

Keywords

references

李琳 . 国家重点研发计划的项目过程管理策略研究 [J ] . 中国战略新兴产业 , 2024 ( 36 ): 184 - 186 .

“林业种质资源培育与质量提升”重点专项2021年度项目中期实用技术成果汇编 [G ] . 中国农村技术开发中心 , 2024 : 106 - 119 .

LUO S , GAO L , GUO W . Effect of expanded polystyrene content and press temperature on the properties of low-density wood particleboard [J ] . Maderas: Ciencia y Tecnología , 2020 , 22 ( 4 ): 549 - 558 .

彭晓瑞 , 张占宽 . 塑膜增强柔性装饰薄木制备与饰面应用进展 [J ] . 木材科学与技术 , 2022 , 36 ( 4 ): 1 - 5, 12 .

PENG X R , ZHANG Z K . Preparation and application of plastic film reinforced pliable decorative veneer [J ] . Chinese Journal of Wood Science and Technology , 2022 , 36 ( 4 ): 1 - 5, 12 .

毛菁菁 , 吴智慧 , 冯鑫浩 . 数码3D打印木纹图像清晰度的调整与评价 [J ] . 林业工程学报 , 2020 , 5 ( 5 ): 164 - 171 .

MAO J J , WU Z H , FENG X H . The adjustment and evaluation of the digital 3D printing wood grain image sharpness [J ] . Journal of Forestry Engineering , 2020 , 5 ( 5 ): 164 - 171 .

吴智慧 . UV-LED紫外光固化技术在家具与木制品表面装饰中的应用 [J ] . 家具 , 2020 , 41 ( 6 ): 19 - 25 .

WU Z H . Application of ultraviolet curing technology with UV-LED in the surface coating of furniture and wood products [J ] . Furniture , 2020 , 41 ( 6 ): 19 - 25 .

JIANG K , DONG X , CHEN Y , et al . A Room‐temperature curing plant protein‐based adhesive with high strength and flame retardancy for heat‐free adhesion [J ] . Advanced Functional Materials , 2024 , 34 ( 39 ): 2403490 .

YE R , WANG C , SHI X , et al . A facile strategy to fabricate low viscosity and high cold tack soy protein-based adhesive for particleboard production [J ] . Industrial Crops and Products , 2024 , 214 : 118612 .

LI W Z , LI D H , DUAN Y J , et al . Combining X-ray CT and DIC to understand the bending strength of OSB [J ] . Construction and Building Materials , 2022 , 354 : 129125 .

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 .

吴婕妤 , 张亚梅 , 于文吉 . 辊压树脂浸胶法对桉木重组木尺寸稳定性影响机理 [J ] . 北京林业大学学报 , 2024 , 46 ( 1 ): 141 - 151 .

WU J Y , ZHANG Y M , YU W J . Influence mechanism of roller-press impregnation on the dimensional stability of Eucalyptus scrimber [J ] . Journal of Beijing Forestry University , 2024 , 46 ( 1 ): 141 - 151 .

JIA H Y , CHEN Z L , JIANG P , et al . Enhancing flame retardancy and antibacterial properties of wood veneer by promoting crosslinking in metal-organic framework structures [J ] . Construction and Building Materials , 2024 , 427 : 136167 .

张镭 , 邹淼 , 唐启恒 , 等 . 热压时间和温度对酚醛树脂型超薄高密度纤维板性能的影响 [J ] . 木材科学与技术 , 2023 , 37 ( 1 ): 68 - 73 .

ZHANG L , ZOU M , TANG Q H , et al . Effects of hot-pressing time and temperature on properties of phenolic resin ultra-thin high density fiberboards [J ] . Chinese Journal of Wood Science and Technology , 2023 , 37 ( 1 ): 68 - 73 .

卢泽潭 , 魏明 , 刘亮先 , 等 . 浸渍胶膜纸覆贴超薄纤维板工艺对其表面胶合强度的影响 [J ] . 木材科学与技术 , 2024 , 38 ( 6 ): 15 - 22, 31 .

LU Z T , WEI M , LIU L X , et al . Effect of pressing process of impregnated paper on surface bonding strength of ultra-thin fiberboard [J ] . Chinese Journal of Wood Science and Technology , 2024 , 38 ( 6 ): 15 - 22, 31 .

付方伟 , 武国芳 , 任海青 , 等 . 不同测试方法下杉木锯材抗弯性能指标的确定 [J ] . 建筑结构学报 , 2023 , 44 ( 11 ): 198 - 207 .

FU F W , WU G F , REN H Q , et al . Determination of bending properties index of Chinese fir lumber affected by different test methods [J ] . Journal of Building Structures , 2023 , 44 ( 11 ): 198 - 207 .

WU G F , ZHU E C , REN H Q , et al . Application of small-diameter round timber as structural members in light frame construction [J ] . Journal of Asian Architecture and Building Engineering , 2022 , 21 ( 3 ): 1029 - 1039 .

熊先青 , 岳心怡 , 张美 , 等 . 面向林木家居产品高质量发展的智能制造赋能技术体系构建 [J ] . 林业科学 , 2024 , 60 ( 11 ): 177 - 189 .

XIONG X Q , YUE X Y , ZHANG M , et al . Intelligent manufacturing enabling technologies system construction for high-quality development of furniture [J ] . Scientia Silvae Sinicae , 2024 , 60 ( 11 ): 177 - 189 .

周小敏 , 李荣荣 . 面向家居智能制造的车间定位技术应用 [J ] . 世界林业研究 , 2024 , 37 ( 2 ): 87 - 93 .

ZHOU X M , LI R R . Application of workshop navigation to home intelligent manufacturing [J ] . World Forestry Research , 2024 , 37 ( 2 ): 87 - 93 .

吴智慧 , 叶志远 . 家居企业数字化转型与产品数字化设计的发展趋势 [J ] . 木材科学与技术 , 2023 , 37 ( 3 ): 1 - 11 .

WU Z H , YE Z Y . Trends in Digital Transformation and digital design in home furnishing manufacturing [J ] . Chinese Journal of Wood Science and Technology , 2023 , 37 ( 3 ): 1 - 11 .

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