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材料导报  2026, Vol. 40 Issue (2): 24120204-13    https://doi.org/10.11896/cldb.24120204
  高分子与聚合物基复合材料 |
速生木材力学性能强化改性研究进展
黄海旺, 甘雪薇, 孙建平*
广西大学资源环境与材料学院,南宁 530004
Research Progress on Strengthening and Modifying Mechanical Properties of Fast-growing Wood
HUANG Haiwang, GAN Xuewei, SUN Jianping*
School of Resources, Environment and Materials, Guangxi University, Nanning 530004, China
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摘要 木材作为一种低碳环保的可再生材料,因具有天然亲和性及优异的固碳能力而备受关注。然而,大多数木材存在密度低、力学性能差、尺寸稳定性不足等缺陷,尤其是速生材,这些缺点限制了其作为主要木制产品的应用范围。因此,对木材进行强化改性以提升其性能和实现高效利用,已成为木材改性领域的研究重点。本文从热处理改性、化学改性以及联合改性三个方面对改善木材物理力学性能的研究进行了系统综述,总结了国内外木材增强改性领域的研究成果,并分析了现阶段木材力学性能强化改性存在的主要问题和不足,提出了未来发展方向,以期为木材力学性能强化改性新技术的发展提供科学参考。
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黄海旺
甘雪薇
孙建平
关键词:  速生材  力学性能  木材改性  热处理  化学改性    
Abstract: Wood is a low-carbon, environmentally friendly, renewable material valued for its natural affinity and excellent carbon sequestration properties. However, most wood exhibits limitations such as low density, poor mechanical properties, and dimensional instability, particularly fast-growing wood, which restrict its application as a primary material in wooden products. Enhancing and modifying wood to improve its perfor-mance and achieve efficient utilization has become a focal point in wood modification research. This paper reviews and categorizes the research achievements of domestic and international scholars on wood reinforcement and modification, focusing on thermal treatment modification, chemical modification, and combined approaches to enhance wood’s physical and mechanical properties. Additionally, it identifies the main challenges and deficiencies in current wood mechanical properties strengthening modification techniques and outlines future development directions, offering a systematic and scientific reference for advancing wood mechanical properties strengthening modification technologies.
Key words:  fast-growing wood    mechanical property    wood modification    heat treatment    chemical modification
出版日期:  2026-01-25      发布日期:  2026-01-27
ZTFLH:  S781.7  
基金资助: 广西自然科学基金重点项目(2022GXNSFDA035065);中央引导地方科技发展基金项目(贵科中引专项2022)
通讯作者:  *孙建平,广西大学资源环境与材料学院教授、博士研究生导师。目前主要从事木材科学与技术方面的研究。jpsun@gxu.edu.cn   
作者简介:  黄海旺,广西大学硕士研究生,在孙建平教授的指导下研究木材科学与技术。
引用本文:    
黄海旺, 甘雪薇, 孙建平. 速生木材力学性能强化改性研究进展[J]. 材料导报, 2026, 40(2): 24120204-13.
HUANG Haiwang, GAN Xuewei, SUN Jianping. Research Progress on Strengthening and Modifying Mechanical Properties of Fast-growing Wood. Materials Reports, 2026, 40(2): 24120204-13.
链接本文:  
https://www.mater-rep.com/CN/10.11896/cldb.24120204  或          https://www.mater-rep.com/CN/Y2026/V40/I2/24120204
1 Garemark J, Jesús E P B, Felhofer M, et al. ACS Nano, 2023, 17, 5.
2 Qing Y, Liao Y, Liu J Y, et al. Journal of Forestry Engineering, 2021, 6(5), 1 (in Chinese).
卿彦, 廖宇, 刘婧祎, 等. 林业工程学报, 2021, 6(5), 1.
3 Wang K, Ding M R, Pan H L. China Forest Products Industry, 2000(3), 3(in Chinese).
王恺, 丁美蓉, 潘海丽. 林产工业, 2000(3), 3.
4 Yan X L. Study on water and nitrogen coupling effects in fast-growing and high-yield poplar plantations of Europe and America. Ph. D. Thesis, Beijing Forestry University, China, 2016(in Chinese).
闫小莉. 欧美108杨速生丰产林水氮耦合效应研究. 博士学位论文, 北京林业大学, 2016.
5 State Forestry Administration. Forest Resources Management, 2014(1), 1.
国家林业局. 林业资源管理, 2014(1), 1.
6 Tu D Y, Chen C F, Zhou Q F, et al. Journal of Forestry Engineering, 2021, 6(1), 13(in Chinese).
涂登云, 陈川富, 周桥芳, 等. 林业工程学报, 2021, 6(1), 13.
7 Wang H D, He J C. Forestry Machinery & Woodworking Equipment, 2008(11), 13(in Chinese).
王宏棣, 何金存. 林业机械与木工设备, 2008(11), 13.
8 Chen C, Cheng R X. Forest Engineering, 2014, 30(5), 27(in Chinese).
陈成, 程瑞香. 森林工程, 2014, 30(5), 27.
9 Kyziol L. Composite Structures, 2016, 158, 64.
10 Zhang Z, Guo Q, Huang X, et al. Coatings, 2024, 14(1), 53.
11 Jiang M, Cheng A, Chen L, et al. Industrial Crops and Products, 2024, 222, 119515.
12 Zhang J, Li Y, Ke D, et al. ACS Applied Nano Materials, 2023, 6(13), 12351.
13 Li H M, Chen R W, Yan T. China Wood Industry, 2009, 23(2), 43 (in Chinese).
李惠明, 陈人望, 严婷. 木材工业, 2009, 23(2), 43.
14 Ding T, Bei Z T, Li Y. Forestry Science and Technology Development, 2012, 26(2), 23 (in Chinese).
丁涛, 贝政廷, 李源. 林业科技开发, 2012, 26(2), 23.
15 Qin S S, Li M, Li X W, et al. Chinese Journal of Tropical Crops, 2011, 32(3), 533 (in Chinese).
秦韶山, 李民, 李晓文, 等. 热带作物学报, 2011, 32(3), 533.
16 Yue K, Chen Q, Jia C, et al. Journal of Fujian Agriculture and Forestry University (Natural Science Edition), 2018, 47(3), 361 (in Chinese).
岳孔, 陈强, 贾翀, 等. 福建农林大学学报(自然科学版), 2018, 47(3), 361.
17 Deng S P, Yang W B, Chen R Y, et al. Scientia Silvae Sinicae, 2009, 45(12), 105 (in Chinese).
邓邵平, 杨文斌, 陈瑞英, 等. 林业科学, 2009, 45(12), 105.
18 Ali M R, Abdullah U H, Ashaari Z, et al. Polymers, 2021, 13(16), 2612.
19 Cao Y J. Properties of steam medium heat-treated wood and the control principle of strength loss. Ph. D. Thesis, Chinese Academy of Forestry, China, 2008 (in Chinese).
曹永建. 蒸汽介质热处理木材性质及其强度损失控制原理. 博士学位论文, 中国林业科学研究院, 2008.
20 Wang X J, Luo C M, Mu J, et al. Materials Reports, 2024, 38(18), 23020251 (in Chinese).
王旭洁, 雒翠梅, 母军, 等. 材料导报, 2024, 38(18), 23020251.
21 He Z, Qi Y, Zhang G, et al. Polymers, 2022, 14(8), 1571.
22 Xue J, Xu W, Zhou J, et al. Materials, 2022, 15(20), 7334.
23 Cahyono T D, Darmawan W, Priadi T, et al. Journal of the Korean Wood Science and Technology, 2020, 48(1), 76.
24 René H D, Sandro C A, Rafael B, et al. Biofuels, Bioproducts and Biorefining, 2023, 17(3), 499.
25 Zhang N N, Xu M. Journal of Forestry Engineering, 2019, 4(2), 38 (in Chinese).
张南南, 许民. 林业工程学报, 2019, 4(2), 38.
26 Wang D F, Li C F, Liu M L, et al. Wood Industry, 2016, 30(6), 31 (in Chinese).
王德福, 李春风, 刘明利, 等. 木材工业, 2016, 30(6), 31.
27 Zhang Y L, Liu M L, Li C F. Journal of Beihua University (Natural Science Edition), 2021, 22(6), 815 (in Chinese).
张银亮, 刘明利, 李春风. 北华大学学报(自然科学版), 2021, 22(6), 815.
28 Lin X, Wang L C, Xu M. Journal of Northeast Forestry University, 2021, 49(8), 106 (in Chinese).
林鑫, 王立朝, 许民. 东北林业大学学报, 2021, 49(8), 106.
29 Wu Y Z, Matsui H, Kataoka A. Forestry Science, 2003(6), 136 (in Chinese).
吴玉章, 松井宏昭, 片冈厚. 林业科学, 2003(6), 136.
30 Li Yan. Study on poplar wood treated with melamine resin and its densification process and properties. Ph. D. Thesis, Nanjing Forestry University, China, 2008(in Chinese).
李艳. 三聚氰胺树脂处理杨木及其密实化工艺与性能的研究. 博士学位论文, 南京林业大学, 2008.
31 Bian X T, Cai Y C, Kong F X, et al. Journal of Northeast Forestry University, 2019, 47(2), 74 (in Chinese).
卞雪桐, 蔡英春, 孔繁旭, 等. 东北林业大学学报, 2019, 47(2), 74.
32 Ying Q, Tang H, Zhu M B, et al. Thermosetting Resins, 2021, 36(5), 48 (in Chinese).
应俏, 唐辉, 朱漫白, 等. 热固性树脂, 2021, 36(5), 48.
33 Qiu H B, Han Y M, Fan D B, et al. Materials Guide, 2018, 32(15), 2700 (in Chinese).
仇洪波, 韩雁明, 范东斌, 等. 材料导报, 2018, 32(15), 2700.
34 Dong Y M, Liu X Y, Liu R H, et al. Forest Products Industry, 2020, 57(11), 10 (in Chinese).
董友明, 刘馨瑶, 刘润豪, 等. 林产工业, 2020, 57(11), 10.
35 Homan W, Tjeerdsma B, Beckers E, et al. World Conference on Timber Engineering, 2000, 5, 2000.
36 Lei D D, Zhou J H, Liu B, et al. Wood Industry, 2009, 23(1), 37 (in Chinese).
雷得定, 周军浩, 刘波, 等. 木材工业, 2009, 23(1), 37.
37 Yan Y T. Study on the performance and enhancement mechanism of fast-growing poplar wood modified by glyoxal. Ph. D. Thesis, Beijing Forestry University, China, 2017(in Chinese).
严玉涛. 乙二醛复合改性速生杨木性能与增强机制研究. 博士学位论文, 北京林业大学, 2017.
38 Yuan H G, Yang L H, Sun Z B, et al. Light Industry Science and Technology, 2019, 35(3), 28 (in Chinese).
元海广, 杨丽虎, 孙照斌等. 轻工科技, 2019, 35(3), 28.
39 Li Y L, Yu J F, Wang X M, et al. Applied Chemical Industry, 2018, 47(6), 1215 (in Chinese).
李亚玲, 于建芳, 王喜明等. 应用化工, 2018, 47(6), 1215.
40 Lu Q J, Li J N, Li M, et al. Journal of Northwest Forestry University, 2017, 32(6), 259 (in Chinese).
陆全济, 李家宁, 李民, 等. 西北林学院学报, 2017, 32(6), 259.
41 You J X, Jin C W, He W L. Wood Industry, 1989(3), 1(in Chinese).
尤纪雪, 金重为, 何文龙. 木材工业, 1989(3), 1.
42 Zhu L B, Gu J Y, Cao J. Chemistry and Adhesion, 2009, 31(4), 1(in Chinese).
朱丽滨, 顾继友, 曹军. 化学与粘合, 2009, 31(4), 1.
43 Qin Y L. Study on the mechanism of urea pretreatment and low molar ratio MUF resin strengthening eucalyptus. Ph. D. Thesis, Beijing Forestry University, China, 2022(in Chinese).
覃引鸾. 尿素预处理及低摩尔比MUF树脂增强桉木机制研究. 博士学位论文, 北京林业大学, 2022.
44 Chai Y B, Tang Z Q, Liu J L. China Wood-Based Panels, 2019, 26(12), 15 (in Chinese).
柴宇博, 唐召群, 刘君良. 中国人造板, 2019, 26(12), 15.
45 Wang F, Liu J L, Lyu W H. Wood Industry, 2017, 31(3), 18 (in Chinese).
王飞, 刘君良, 吕文华. 木材工业, 2017, 31(3), 18.
46 Wu G F, Jiang Y F, Song S P, et al. Spectroscopy and Spectral Analysis, 2011, 31(4), 1083 (in Chinese).
武国峰, 姜亦飞, 宋舒苹, 等. 光谱学与光谱分析, 2011, 31(4), 1083.
47 Weng M, Zhu Y, Mao W, et al. Forests, 2023, 14(7), 1440.
48 Shi J S, Li J Z, Zhou W R, et al. Journal of Beijing Forestry University, 2006(2), 123 (in Chinese).
时尽书, 李建章, 周文瑞, 等. 北京林业大学学报, 2006(2), 123.
49 Rowell R M, Simonson R, Tilman A M. US patent, US5777101A, 1989.
50 Furuno T, Lmamura Y, Kajita H. Wood Science and Technology, 2004, 37 (5), 349.
51 Liu J L, Wang Y Q. Wood Industry, 2004(6), 5 (in Chinese).
刘君良, 王玉秋. 木材工业, 2004(6), 5.
52 Chen B, Zhang Y L, Fan P H, et al. Liaoning Forestry Science and Technology, 2009(6), 18 (in Chinese).
陈波, 张玉玲, 范鹏辉, 等. 辽宁林业科技, 2009(6), 18.
53 Furuno T, lmamura Y, Kajita H. Wood Science and Technology, 2004, 37(5), 349.
54 Liu Y L. Journal of Northeast Forestry University, 2005, 33(2), 89 (in Chinese).
刘亚兰. 东北林业大学学报, 2005, 33(2), 89.
55 Chen C. Study on the influence of modification treatment on the physical and mechanical properties of Populus tomentosa. Ph. D. Thesis, Shandong Agricultural University, China, 2017(in Chinese).
陈澄. 改性处理对毛白杨物理力学性能影响的研究. 博士学位论文, 山东农业大学, 2017.
56 Wang X G, Jin J W, Deng Y H, et al. Journal of Southwest Forestry University, 2014, 34(3), 84 (in Chinese).
王向歌, 金菊婉, 邓玉和, 等. 西南林业大学学报, 2014, 34(3), 84.
57 Zhang X L, Li Y N, Zhang S Q, et al. Forest Fire Prevention, 2021, 39(z1), 16 (in Chinese).
张小力, 李亚男, 张舒情, 等. 森林防火, 2021, 39(z1), 16.
58 Yano H, Mori K, Collins P J, et al. Holzforschung, 2000, 54(4), 443.
59 Chen L F, Wang J J, Ma H X, et al. Journal of Anhui Agricultural University, 2023, 50(3), 389 (in Chinese).
陈利芳, 王剑菁, 马红霞, 等. 安徽农业大学学报, 2023, 50(3), 389.
60 Ouyang X P, Zhan L, Chen K, et al. Journal of South China University of Technology (Natural Science Edition), 2011, 39(11), 22.
欧阳新平, 战磊, 陈凯, 等. 华南理工大学学报(自然科学版), 2011, 39(11), 22.
61 Li Y Q, Li R F, Yang Y L, et al. Yunnan Chemical Industry, 2023, 50(2), 57 (in Chinese).
李玉权, 李荣福, 杨永立, 等. 云南化工, 2023, 50(2), 57.
62 Sun Z Y, Zhang Y, Zuo Y F, et al. Mater, 2021, 35, 5181.
63 Zhang Y, Liu Y, Liu M, et al. BioResources, 2021, 16, 6669.
64 Zhang Y L, Liu M L, Li C F. Journal of Beihua University(Natural Science), 2021, 22, 815.
65 Weng M, Zhu Y, Mao W, Zhou J, et al. Forests, 2023, 14, 1440.
66 Shen D J, Zhou C L. Journal of Northeast Forestry University, 2009, 37(3), 53 (in Chinese).
沈德君, 周丛礼. 东北林业大学学报, 2009, 37(3), 53.
67 Shukla S R, Sharma S K. Journal of the Indian Academy of Wood Science, 2022(1), 19.
68 Wang H, Zhang Y, Li H, et al. Forests, 2023, 14(11), 2176.
69 Chang D L, Chen Y H, Hu W H, et al. Forest Products Industry, 1997(6), 7 (in Chinese).
常德龙, 陈玉和, 胡伟华, 等. 林产工业, 1997(6), 7.
70 Deka M, Gindl W, Wimmer R, et al. Indian Journal of Chemical Technology, 2007, 3(14), 134.
71 Gindl W, Ulrich M, Alfred T. Wood and Fiber Science, 2002, 35(2), 239.
72 Gindl W, Gupta H.Composites Part A:Applied Science and Manufacturing, 2002, 33(8), 1141.
73 Manik T N, Nuki S A, Fauziyah N A, et al. Journal of Renewable Materials, 2021, 9, 009.
74 Li L Z, Yang C X, Song Z M, et al. New Rural Technology, 2009(22), 68 (in Chinese).
李龙哲, 阳财喜, 宋作梅, 等. 农村新技术, 2009(22), 68.
75 Hai X H. Research on three-layer poplar wood flooring with sucrose-modified melamine-formaldehyde impregnated resin finish. Ph. D. Thesis, Beihua University, China, 2020(in Chinese).
海潇涵. 蔗糖改性三聚氰胺-甲醛浸渍树脂饰面三层杨木地板的研究. 博士学位论文, 北华大学, 2020.
76 Zhang B G, Wu Z G, Lei H. Green Technology, 2018(08), 185 (in Chinese).
张本刚, 吴志刚, 雷洪. 绿色科技, 2018(8), 185.
77 Tang C F, Cai C W, Yang H J, et al. Forest Products Industry, 2012, 39(2), 38 (in Chinese).
唐朝发, 蔡昌文, 杨洪杰, 等. 林产工业, 2012, 39(2), 38.
78 Pan Y D, Li C F. Forest Engineering, 2017, 33(3), 44 (in Chinese).
潘亚东, 李春风. 森林工程, 2017, 33(3), 44.
79 Altun S, Tokdemir V. BioResources, 2017, 12(1), 586.
80 Nordstierna L, Lande S, Westin M, et al. Holzforschung, 2008, 62(6), 709.
81 He L, Yu Y, Yu Y S, et al. Journal of Bamboo Research, 2012, 31(1), 33 (in Chinese).
何莉, 余雁, 喻云水, 等. 竹子研究汇刊, 2012, 31(1), 33.
82 Goldstein I, Dreher W. Industrial & Engineering Chemistry, 1960, 52(1), 57.
83 Anaya M, Alvarez A, Novoa J, et al. Revista sobre los Derivados de la Cana de Azucar, 1984, 18, 49.
84 Esteves B, Nunes L, Pereira H. EuropeanJournal of Wood and Wood Products, 2011, 69 (4), 521.
85 Bian X T. Study on the impregnation process and drying standard of fast-growing poplar wood impregnated with furfuryl alcohol resin. Ph. D. Thesis, Northeast Forestry University, China, 2020(in Chinese).
卞雪桐. 糠醇树脂浸渍强化速生杨木材的浸渍工艺及干燥基准研究. 博士学位论文, 东北林业大学, 2020.
86 Li W J, Wang H K, Ren D, et al. Wood Science and Technology, 2015, 49(4), 845.
87 Chen T A, Luo P P, Xu Z Y, et al. Transactions of the Chinese Society of Forestry Engineering, 2016, 1(2), 21 (in Chinese).
陈太安, 罗朋朋, 徐忠勇, 等. 林业工程学报, 2016, 1(2), 21.
88 Zheng Z, Chen C, Huang Y, et al. ACS Applied Polymer Materials, 2022, 4(8), 5308.
89 Liu M, Lyu S, Cai L, et al. Industrial Crops and Products, 2021, 172, 172.
90 Wang Y, Li Y, Yang S, et al. Science of Advanced Materials, 2022, 14(8), 1369.
91 Zhang L L. Study on the performance and mechanism of furfuryl alcohol modified poplar wood catalyzed by montmorillonite and boron-phosphorus compounds. Ph. D. Thesis, Beijing Forestry University, China, 2022(in Chinese).
张亮亮. 蒙脱土和硼磷系化合物催化糠醇改性杨木性能及机理研究. 博士学位论文, 北京林业大学, 2022.
92 Dong Y, Yan Y T, Zhang S F, et al. Bioresources, 2014, 9(4), 6028.
93 Dong Y M, Yan Y T, Zhang S F, et al. European Journal of Wood and Wood Products, 2015, 73(4), 457.
94 Kong L, Guan H, Wang X. ACS Sustainable Chemistry & Engineering, 2018, 6(3), 3349.
95 Kong L Z. Study on the properties of poplar wood modified by furfuryl alcohol resin/diammonium phosphate composite. Ph. D. Thesis, Chinese Academy of Forestry, China, 2018(in Chinese).
孔丽琢. 糠醇树脂/磷酸二氢铵复合改性杨木性能研究. 博士学位论文, 中国林业科学研究院, 2018.
96 Huang Y, Zheng Z, Chen C, et al. European Journal of Wood and Wood Products, 2024, 82, 731.
97 Mubarok M, Christine G C, Azadeh E, et al. Journal of Renewable Materials, 2023, 11(2), 17.
98 Lande S, Eikenes M, Westin M, et al. In:The Second European Confe-rence on Wood Modification. Göttingen, Germany, 2005.
99 Li W J. Research on the modification technology and mechanism of furfuryl alcohol resin for wood and bamboo. Ph. D. Thesis, Chinese Academy of Forestry, Beijing, 2017(in Chinese).
李万菊. 木竹材糠醇树脂改性技术及其机理研究. 博士学位论文, 中国林业科学研究院, 2017.
100 Acosta A P, Beltrame R, Missio A L, et al. Wood Material Science & Engineering, 2022, 17(3), 151.
101 Hadi Y S, Herliyana E N, Pari G, et al. Journal of the Korean Wood Science and Technology, 2022, 50(1), 46.
102 Li W J, Ren D, Zhang X X, et al. BioResources, 2016, 11(2), 3614.
103 Lande S. ACS Symposium, 2008, 982, 337.
104 Yang T, Zhang S, Mei C, et al. Holzforschung, 2022, 76, 825.
105 Wang Z, He S, Shi J, et al. Forests, 2023, 14, 1242.
106 Krause A, Jones D, van der Zee M, et al. Forests, 2022, 13(7), 1004.
107 Xie Y, Krause A, Militz H, et al. Holzforschung, 2007, 61(1), 43.
108 Xie Y J, Fu Q L, Wang Q W, et al. Journal of Forestry Science, 2012, 48(9), 154 (in Chinese).
谢延军, 符启良, 王清文, 等. 林业科学, 2012, 48(9), 154.
109 Peng X X, Sun F W, Liu L L. Forestry Science and Technology Development, 2015, 29(5), 111 (in Chinese).
彭晓晓, 孙丰文, 刘龙龙. 林业科技开发, 2015, 29(5), 111.
110 Sun F W, Peng X X, Liu L L. Forestry Science and Technology Development, 2015, 29(5), 98 (in Chinese).
孙丰文, 彭晓晓, 刘龙龙. 林业科技开发, 2015, 29(5), 98.
111 Emmerich L, Militz H, Brischke C. International Wood Products Journal, 2020, 11(1), 27.
112 Huang Z, Wang Z, Xiao Z F, et al. Transactions of the Chinese Society of Forestry Engineering, 2019, 4(5), 60 (in Chinese).
黄政, 王政, 肖泽芳, 等. 林业工程学报, 2019, 4(5), 60.
113 Fuchs, W. Berichte der Deutschen Chemischen Gesellschaft (A and B Series), 1928, 61(5), 948.
114 Thybring, Engelund E. International Biodeterioration & Biodegradation, 2013, 82, 87.
115 Stamm A, Tarkow H. U. S. for. Prod. Lab. Madison, 1950, 51(2), 493.
116 Yasuda R, Minato K. Wood Science and Technology, 1994, 28(2), 101.
117 Yasuda R, Minato K. Wood Science and Technology, 1995, 29(4), 243.
118 Minato Y K. Wood Science & Technology, 1994, 28, 101.
119 Xie Y J, Hill, et al. Wood Science & Technology, 2011, 45, 49.
120 Yu T, Yan Y M, et al. Wood Science & Technology, 2015, 49, 241.
121 Hu J, Fu Z, Wang X, Chai Y. Polymers, 2022, 14(16), 3299.
122 Sun J, Gao Z Z, Li B T, et al. Journal of South China Agricultural University, 2006, 27(3), 73 (in Chinese).
孙瑾, 高振忠, 李秉滔, 等. 华南农业大学学报, 2006, 27(3), 73.
123 Yan Y, Dong Y, Chen H, et al. BioResources, 2014, 9(3), 4540.
124 Xiao Z, Xie Y, Militz H, et al. Holzforschung, 2010, 64(4), 475.
125 Sun W, Shen H, Cao J. Materials & Design, 2016, 96, 392.
126 Xi X D, Liao J J, Antonio P, et al. The Journal of Adhesion, 1996, 13, 1167.
127 Siahkamari M, Emmanuel S, Hodge D B, et al. ACS Sustainable Che-mistry & Engineering, 2022, 10(11), 3430.
128 Zhang Q, Xu G, Pizzi A, et al. Polymers, 2022, 14(14), 2819.
129 Dai C, Ye L, He W, et al. Polymer Engineering and Science, 2023, 63(2), 499.
130 Tang M, Fang X, Li B et al. Polymers, 2022, 14(10), 2077.
131 Wang F Q, Sui F, Liao H, et al. Fire Science and Technology, 2014, 33(6), 688 (in Chinese).
王奉强, 隋芳, 廖恒, 等. 消防科学与技术, 2014, 33(6), 688.
132 Liu Q Q. Preparation and performance study of glucose-urea-melamine resin/sodium silicate modified poplar wood. Ph. D. Thesis, Chinese Academy of Forestry, China, 2021.
刘强强. 葡萄糖-尿素-三聚氰胺树脂/硅酸钠改性杨木制备及性能研究. 博士学位论文, 中国林业科学研究院, 2021.
133 Sun Z Y, Zhang Y, Zuo Y F, et al. Materials Reports, 2021, 35(5), 5181 (in Chinese).
孙振宇, 张源, 左迎峰, 等. 材料导报, 2021, 35(5), 5181.
134 Xu E, Zhang Y, Lin L. Polymers, 2020, 12, 1632.
135 Sun K, Xu Z H, Zhang H, et al. Green Science and Technology, 2019(12), 224 (in Chinese).
孙珂, 徐子涵, 张贺, 等. 绿色科技, 2019(12), 224.
136 Shi Y, Liu J L, Lyu W H, et al. Wood Industry, 2019, 33(1), 21 (in Chinese).
石媛, 刘君良, 吕文华, 等. 木材工业, 2019, 33(1), 21.
137 Yang S, Liu Z, Wang Z, et al. Journal of Building Engineering, 2023, 73, 106676.
138 Zheng Y X, Lyu W H, Xu M S. Wood Industry, 2015, 29(6), 36 (in Chinese).
郑雅娴, 吕文华, 许茂松. 木材工业, 2015, 29(6), 36.
139 Liu Y, Liu M L, Li C F. International Wood Industry, 2019, 49(5), 50 (in Chinese).
刘宇, 刘明利, 李春风. 国际木业, 2019, 49(5), 50.
140 Ping L J. Study on the modification of rubber wood by silica sol and MUG resin and its mechanism. Ph. D. Thesis, Chinese Academy of Forestry, China, 2021(in Chinese).
平立娟. 硅溶胶复配MUG树脂改性橡胶木及其机理研究. 博士学位论文, 中国林业科学研究院, 2021.
141 Yi X, Cao S, Hao X, et al. Polymers for advanced technologies, 2023, 34(8), 2501.
142 Hazarika A, Maji T K. Polymer Engineering & Science, 2014, 54(5), 1019.
143 Nguyen T T, Xiao Z F, Che W B, et al. Journal of Wood Science, 2019, 65(1), 2.
144 Guan P F. Study on the process and fixation mechanism of modified poplar wood by sodium silicate/acrylic acid emulsion impregnation. Ph. D. Thesis, Central South University of Forestry and Technology, China, 2022(in Chinese).
关鹏飞. 硅酸钠/丙烯酸乳液浸渍改性杨木工艺与固着机制研究. 博士学位论文, 中南林业科技大学, 2022.
145 Wang W. Research on silica sol/VAE modified fast-growing poplar. Ph. D. Thesis, Central South University of Forestry and Technology, Chian, 2015(in Chinese).
王薇. 硅溶胶/VAE改性速生杨木的研究. 博士学位论文, 中南林业科技大学, 2015.
146 Lyu W H. Preparation of wood/montmorillonite nano-intercalation compo-sites. Ph. D. Thesis, Beijing Forestry University, China, 2004(in Chinese).
吕文华. 木材/蒙脱土纳米插层复合材料的制备. 博士学位论文, 北京林业大学, 2004.
147 Wang L, Cao J Z, Liu B Y, et al. Chemistry and Industry of Forest Products, 2009, 29(5), 64 (in Chinese).
汪亮, 曹金珍, 刘炳玉, 等. 林产化学与工业, 2009, 29(5), 64.
148 Yu X, Sun D, Li X. Journal of Wood Science, 2011, 57(6), 501.
149 Cai X, Riedl B, Zhang S Y, et al. Composites Part A: Applied Science and Manufacturing, 2008, 39(5), 727.
150 Zhang J, Wang K H, Li Q. China Wood-Based Panels, 2010, 17(9), 16 (in Chinese).
张建, 汪奎宏, 李琴. 中国人造板, 2010, 17(9), 16.
151 Yu X C, Sun D L, Li X S. Journal of Central South University of Forestry and Technology, 2011, 31(1), 109 (in Chinese).
余先纯, 孙德林, 李湘苏. 中南林业科技大学学报, 2011, 31(1), 109.
152 Jiang X H, Cao J Z, Luo G Q. Chemistry and Industry of Forest Pro-ducts, 2011, 31(1), 41 (in Chinese).
姜卸宏, 曹金珍, 罗冠群. 林产化学与工业, 2011, 31(1), 41.
153 Zhou Q, Wei X. Hunan Forestry Science and Technology, 2010, 37(1), 17 (in Chinese).
周群, 魏象. 湖南林业科技, 2010, 37(1), 17.
154 Qian C L. Preparation and properties of poplar wood modified by CaCl2-NaCO3 internal reaction deposition. Ph. D. Thesis, Nanjing Forestry University, China, 2020(in Chinese).
钱曹厉. CaCl2-NaCO3内部反应沉积改性杨木的制备及性能研究. 博士学位论文, 南京林业大学, 2020.
155 Guo P, Zhao X, Zhu X, et al. BioResources, 2023, 18(2), 3724.
156 Zhu X D, Liu Y, Chen G S. Journal of Northwest Forestry University, 2017, 32(4), 235(in Chinese).
朱晓冬, 刘玉, 陈广胜. 西北林学院学报, 2017, 32(4), 235.
157 Qiu X H, Wu S L, Zhang Q G, et al. Journal of Nanchang Institute of Aeronautical Technology (Natural Science Edition), 2005, 19(1), 79 (in Chinese).
邱贤华, 吴少林, 张秋根, 等. 南昌航空工业学院学报(自然科学版), 2005, 19(1), 79.
158 dos Santos D F, Aramburu A B, Acosta A P, et al. Wood Material Science & Engineering, 2024, 19(5), 1056.
159 Acosta A P, Labidi J, Schulz H R, et al. Forests, 2020, 11(7), 768.
160 Acosta A P, Gallio E, Schulz H R, et al. International Wood Products Journal, 2020, 11(4), 204.
161 Acosta A, Gallio E, Zanatta P, et al. Fibers and Polymers, 2021, 22(3), 745.
162 Uyup M K A, Sahari S H, Jalaludin Z, et al. Holzforschung, 2021, 75(5), 444.
163 Dong X, Sun T, Liu Y, et al. BioRes, 2015, 10(4), 7854.
164 Han X H, Wang Z X, Zhang Q Q, et al. Holzforschung, 2020, 74(5), 435.
165 Navi P, Heger F. MRS Bulletin, 2004, 29(5), 332.
166 Wu Y Q. Journal of Central South University of Forestry and Technology, 2021, 41(1), 1 (in Chinese).
吴义强. 中南林业科技大学学报, 2021, 41(1), 1.
167 Fang C H, Mariotti N, Cloutier A, et al. European Journal of Wood and Wood Products, 2012. 70(1), 155.
168 Avila, Bustos C. BioResources, 2012, 7(2), 1525.
169 Du C, Tu D Y, Lao Y M, et al. Forestry Science and Technology Deve-lopment, 2013, 27(6), 105 (in Chinese).
杜超, 涂登云, 劳奕旻, 等. 林业科技开发, 2013, 27(6), 105.
170 Zhang F M. Study on the influence of ultra-high pressure treatment on the physical and mechanical properties of poplar wood. Ph. D. Thesis, Zhejiang University, China, 2018(in Chinese).
张峰铭. 超高压处理对杨木物理力学特性的影响研究. 博士学位论文, 浙江大学, 2018.
171 Liu S, Yue K, Qian J, et al. International Journal of Biological Macromolecules, 2024, 280, 135949.
172 Wu J, Fan Q, Wang Q, et al. Journal of Cleaner Production, 2020, 261, 121022.
173 Song L Q, Ji F Q, Sun J P. Journal of Northwest Forestry University, 2022, 37(4), 248 (in Chinese).
宋丽琴, 姬富强, 孙建平. 西北林学院学报, 2022, 37(4), 248.
174 Song J, Chen C, Zhu S, et al. Nature, 2018, 554(7691), 224.
175 Zeng Z G. Research on manufacturing process and application technology of flexible decorative veneer. Ph. D. Thesis, Nanjing Forestry University, China, 2003(in Chinese).
曾志高. 柔性装饰薄木制造工艺及应用技术研究. 博士学位论文, 南京林业大学, 2003.
176 Zerbst D, Affronti E, Gereke T, et al. European Journal of Wood and Wood Products, 2020, 78(2), 321.
177 Tang Y M, Gao S C, Dai X F, et al. Furniture, 2022, 43(4), 15 (in Chinese).
唐远明, 高水昌, 戴雪枫, 等. 家具, 2022, 43(4), 15.
178 Zhang X H, Fang L, Wu Z H, et al. Journal of Forestry Engineering, 2022, 7(4), 58(in Chinese).
张鑫豪, 方露, 吴智慧, 等. 林业工程学报, 2022, 7(4), 58.
179 Li X, Yue K, Tang Z, et al. Construction and Building Materials, 2024, 416, 135138.
180 Yue K, Qian J, Wu P, et al. Industrial Crops and Products, 2023, 197, 116612.
181 Song X, Yue K, Xie Y, et al. Case Studies in Thermal Engineering, 2024, 60, 104639
182 Li X, Yue K, Zhu L, et al. Construction and Building Materials, 2024, 452, 138964.
183 Zhang T, Yu J F, Wang Z, et al. Journal of Northwest Forestry University, 2020, 35(4), 191 (in Chinese).
张涛, 于建芳, 王哲, 等. 西北林学院学报, 2020, 35(4), 191.
184 Cen L M, Lin J. Journal of Beijing Forestry University, 2022, 44(4), 157 (in Chinese).
岑路梅, 林剑. 北京林业大学学报, 2022, 44(4), 157.
185 He L, Wei X Y, Huang H, et al. Journal of Southwest Forestry University (Natural Science), 2024, 44(1), 149(in Chinese).
贺磊, 魏信义, 黄慧, 等. 西南林业大学学报(自然科学), 2024, 44(1), 149.
186 Kuai B, Wang Z, Gao J, et al. Construction and Building Materials, 2022, 344(15), 128282.
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