论文:
[1] Na Su,Qingqing Yan,Chao Zhang,Yihua Li,Wenyu Su & Changhua Fang.(2026).Coupled effects of chemical composition, fiber traits, and structural properties on bending performance: A species-level study of common bamboo rhizomes.Industrial Crops & Products,239,122452-122452.https://doi.org/10.1016/J.INDCROP.2025.122452. [2] Na Su,Yihua Li,Qingqing Yan,Mengqi Zhu,Hua Wang,Caiping Lian... & Haocheng Xu.(2025).Qualitative and quantitative study of the anatomical characteristics of Phyllostachys edulis rhizome.Wood Science and Technology,60(1),5-5.https://doi.org/10.1007/S00226-025-01731-W. [3] Na Su,Yihua Li,Yiwen Chen,Lisheng Chen,Haocheng Xu & Wenyu Su.(2026).Study on the anatomical structure and chemical characteristics of several commonbamboo rhizomes.Holzforschung,80(1),53-67.https://doi.org/10.1515/HF-2025-0110. [4] Na Su,Mengqi Zhu,Qingqing Yan,Yihua Li,Haocheng Xu & Wenyu Su.(2025). Research on water absorption behavior and dimensional stability of bamboo rhizome. Wood Material Science & Engineering, 1–14. https://doi.org/10.1080/17480272.2025.2562226. [5] Na Su,Zonglin Li,Qingqing Yan,Yiwen Chen & Haocheng Xu.(2025).Comparative Study of Water Absorption and Dimensional Stability Between Bamboo Nodes and Internodes.Forests,16(11),1685-1685.https://doi.org/10.3390/F16111685. [6] Na Su,Qingqing Yan,Yihua Li,Haocheng Xu,Changhua Fang & Wenyu Su. (2025).A Multiscale and Integrative Review of Bamboo Permeability: Structural Mechanisms, Detection Techniques, and Enhancement Approaches.Forests,16(11),1744-1744.https://doi.org/10.3390/F16111744. [7] Na Su,Yihua Li,Chao Zhang,Yiwen Chen,Haocheng Xu,Changhua Fang & Lisheng Chen.(2025).Bamboo Rhizomes: Insights into Structure, Properties, and Utilization.Forests,17(1),6-6.https://doi.org/10.3390/F17010006. [8] 苏娜,王华,王雪花,陈红,黄彬,方晓阳 & 苏文宇.(2025).乡村振兴视域下《竹文化与竹家具设计》课程建设探索.家具,46(02),129-133.https://doi.org/10.16610/j.cnki.jiaju.2025.02.024. [9] Xianke Wang,Xiaohan Chen,Na Su,Lin Chen,Xinxin Ma & Changhua Fang.(2025).Moisture dependence of interfacial bonding and mechanical properties of bamboo as natural fiber reinforced composites.Industrial Crops & Products,235,121797-121797.https://doi.org/10.1016/J.INDCROP.2025.121797. [10] Xianke Wang,Na Su,Xiaohan Chen,Benhua Fei,Xinxin Ma,Huanrong Liu & Changhua Fang.(2024).Impact of temperature on mechanical properties and dimensional stability in a novel gradient pressure bamboo flattening technique.Construction and Building Materials,427,136258-.https://doi.org/10.1016/J.CONBUILDMAT.2024.136258. [11] Haocheng Xu,Feiyu Tian,Yanan She,Shaocong Wang,Na Su & Xinwu Xu.(2024).The robust hydraulic system in moso bamboo: Unveiling the spatial distribution of metaxylem vessels.Industrial Crops & Products,216,118772-.https://doi.org/10.1016/J.INDCROP.2024.118772. [12] Bin Huang,Xianke Wang,Na Su & Changhua Fang.(2024).High-performance engineered bamboo units with customizable radius based on pressure-drying technology: Multi-scale mechanical properties.Construction and Building Materials,457,139472-139472.https://doi.org/10.1016/J.CONBUILDMAT.2024.139472. [13] Huang Bin,Wang Xianke,Chen Lin,Su Na,Liu Litong,Luan Yu & Fang Changhua.(2024).Impact of the natural structure of cortex and pith ring on water loss and deformation in bamboo processing.Construction and Building Materials,411,134396-.https://doi.org/10.1016/J.CONBUILDMAT.2023.134396. [14] Su Na,Fang Changhua,Zhou Hui,Tang Tong,Zhang Shuqin & Fei Benhua.(2020).Hydrophobic treatment of bamboo with rosin.Construction and Building Materials,(prepublish),121507-.https://doi.org/10.1016/J.CONBUILDMAT.2020.121507. [15]Su Na,Fang Changhua,Yu Zixuan,Zhou Hui,Wang Xianke,Tang Tong... & Fei Benhua.(2021).Effects of rosin treatment on hygroscopicity, dimensional stability, and pore structure of round bamboo culm.Construction and Building Materials,287,https://doi.org/10.1016/J.CONBUILDMAT.2021.123037. [16]Su Na,Zhou Hui,Tang Tong,Zhang Shuqin,Yu Zixuan,Fang Changhua & Fei Benhua.(2021).Penetration and distribution of rosin along the longitudinal axis of round bamboo culm.Construction and Building Materials,305,https://doi.org/10.1016/J.CONBUILDMAT.2021.124781. [17]Su Na,Fang Changhua,Zhou Hui,Tang Tong,Zhang Shuqin,Wang Xiaohuan & Fei Benhua.(2021).Effect of Rosin Modification on the Visual Characteristics of Round Bamboo Culm.Polymers,13(20),3500-3500.https://doi.org/10.3390/POLYM13203500.
国家授权发明专利: (1) 陈玉霞,苏娜,郭勇,刘盛全,高慧,涂道伍,赵冠艳.2018,发明专利: 一种无干扰睡眠的睡姿和睡眠行为测试识别方法,ZL201510133654.6 (导师为第一发明人) (2) 陈玉霞,郭勇,苏娜,张凯婷,朱诗留.2017,发明专利: 一种设有丝瓜海绵功能层的健康环保生物质床垫,ZL 2015104434201 (3) 陈玉霞,郭勇,苏娜,任林燕,石允娇,刘盛全,涂道伍,张凯婷,赵冠艳.2018,发明专利: 一种健康环保生物质丝瓜海绵婴儿床垫及其加工方法,中国,ZL 201510443418.4 (4) 陈玉霞,郭勇,苏娜,张凯婷,朱诗留.2017,发明专利: 一种迷你健康环保生物质丝瓜海绵床垫及其加工方法,ZL 201510443512X (5) 陈玉霞,袁方成,苏娜,张凯婷,郭勇,刘盛全,涂道伍,赵冠艳,朱诗留.2018,发明专利: 一种基于模块化设计的柱状丝瓜络健康分区床垫,中国,ZL2015104434860 (6) 陈玉霞,郭勇,张凯婷,苏娜,朱诗留.2017,发明专利: 一种柱状丝瓜络健康床垫及其加工方法,中国,ZL 2015104436550 (7) 陈玉霞,张婷婷,郭勇,苏娜,朱诗留.2019,发明专利: 一种多功能健身椅,中国,ZL201510998722.5 (8) 陈玉霞,刘盛全,郭勇,苏娜,张凯婷,朱诗留,涂道伍,赵冠艳.2018,发明专利: 一种一款三用健康环保生物质丝瓜海绵分区床垫及其加工方法,中国,ZL 201510443487.5 (9) 陈玉霞,张凯婷,郭勇,苏娜,朱诗留.2018,发明专利: 一种可锻炼拉力和握力的多功能健身椅,中国,ZL201510998540.8
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