方长华，男，工学博士，研究员，博士生导师。

招生专业：木材科学与技术、材料与化工

研究方向：竹质工程材料

2003年获得法国政府博士生奖学金，2007年获得法国蒙彼利埃大学复合材料及结构和系统力学专业博士学位。2007年赴加拿大拉瓦尔大学木材研究中心先后从事博士后和副研究员工作。2016年9月作为国家林业和草原局高端人才引进计划领军人才回国进入国际竹藤中心工作。兼任国际标准化组织竹藤技术委员会（ISO/TC 296）秘书长、国际林业研究组织联盟(IUFRO)第五学部竹藤工作组组长、国际标准化组织木竹结构技术委员会（ISO/TC165）注册专家、《林业科学》青年编委、《木材科学与技术》副主编、中国竹产业协会标委会副主任委员。

 参与过法国和加拿大多项科研项目，先后主持加拿大MITACS- Accelerate资助项目、国家自然基金面上项目（2项）、人社部高层次留学回国人才资助项目、十四五国家重点研发计划课题、国家标准外文版制修订项目等，主持制定国际标准1件、国家标准1件，参编国际标准14项。授权发明专利15件，共发表文章130余篇，其中SCI收录文章100余篇，截至目前共被引近3600余次，h指数达33，其中单篇最高被引用300余次，并被Nature、Nature Reviews Materials、等国际顶级期刊多次引用。成果荣获第十三届梁希科学技术奖一等奖1次，茅以升木材科学与技术奖一等奖1次。近3年指导研究生中，1人获中国林科院优秀博士论文、4人获得国家奖学金、2人获北京市优秀毕业生，2人获梁希优秀学子奖、2人获茅以升木材科技教育奖学金、多人获中国林业科学研究院优秀毕业生、各种学术大会口头报告及海报一等奖等。

主要研究方向:

主要从事生物质材料（竹、木）特性及改性、加工利用方面的研究。

主要研究内容:

竹质工程材料研发、以竹代塑产品研发、竹材基础材性及改性处理

主持项目和课题有：

1.国家自然科学基金面上项目“宽幅弧形竹片均质化改弧密实及层积机制（32572171）“

2.国家自然科学基金面上项目“竹子生长应力与材性相互作用机制（32071856）”

3.十四五重点研发计划课题“原态竹质工程材料制造关键技术与示范（2022YFD2200902）”

4.十四五重点研发计划任务“展平竹薄片材缠绕技术研究（2023YFD220210104）”

5.人社部高层次留学回国人才资助项目

6.中央公益性科研院所基本科研业务费项目“以竹代塑创新产品研发和应用”课题一

7.中央公益性科研院所基本科研业务费项目“竹子应对环境外力的反应特征和机理”

8.国际ISO标准项目

9.国家标准项目

10.国家标准外文版制修订项目

11.横向研发项目

近5年发表主要论文（第一作者或通讯作者）：

[1]. Classification and prediction of flexural properties of bamboo slices made from flattened bamboo with a gradient structure based on GA-BP neural network model, Composites Part B: Engineering, 2025, 299, 112446 (1区TOP期刊)

[2]. Eco‐friendly innovation Industrial‐scale all‐natural bamboo drinking straw inspired by bamboo's flexibility and toughness, Journal of Bioresources and Bioproducts, 2025, 10: 239–252(1区TOP期刊)

[3]. Thermo-hygro mechanical flattening of bamboo with intact wall structure: synergistic enhancement of mechanical properties and dimensional stability, Composites Part B: Engineering, 2025, 303, 112582 (1区TOP期刊)

[4]. Tunable-performance sustainable bamboo composites via thinning and bioinspired layered reassembly，Journal of Cleaner Production，2025，537，147163(1区TOP期刊)

[5]. Mechanically tunable bamboo sliver winding composites (BSWC): A bending stress control strategy，Construction and Building Materials，2025，505，1448261区TOP期刊)

[6].  

[7]. How slender bamboo reacts to gravitational and external mechanical stimuli: Responses and mechanisms, Plant Physiology, 2025, 2025, 199 (2), kiaf488 (1区TOP期刊)

[8]. Moisture dependence of interfacial bonding and mechanical properties of bamboo as natural fiber reinforced composites, Industrial Crops & Products, 2025,235, 121797(1区TOP期刊)

[9]. A method for constructing a superhydrophobic, self-cleaning, highly weather-resistant composite coating on bamboo scrimber using wood wax oil and zeolitic imidazolate Framework-8, Sustainable Materials and Technologies, 2025, 46, e01688

[10]. Subcellular mechanical processing of bamboo into a flexible and strong film, Cellulose, 2025, 32: 6197-6208

[11]. Bamboo belts with variable fiber cell angles for winding applications: development of a novel manufacturing technique and assessment of performance feasibility, Composites Part B: Engineering, 2024, 296, 111806 (1区TOP期刊)

[12]. A straightforward and efficient gradient pressure method for bamboo flattening: Strain and multi-scale deformation, Composites Part B: Engineering, 2024, 272, 111232(1区TOP期刊)

[13]. Unveiling the mechanisms of Moso bamboo's motor function and internal growth stress, New Phytologist, 2024, 243 (6), 2201–2213 (1区TOP期刊，封面文章)

[14]. A novel eco-friendly and economical approach of bamboo colorization through biomimetic polymerization of dopamine melanin inspired by photonic microstructure of bird plumage, Journal of Cleaner Production, 2024 458, 142466 (1区TOP期刊)

[15]. High-performance engineered bamboo units with customizable radius based on pressure-drying technology Multi-scale mechanical properties, Construction and Building Materials, 2024, 457, 139472 (1区TOP期刊)

[16]. Impact of temperature on mechanical properties and dimensional stability in a novel gradient pressure bamboo flattening technique, Construction and Building Materials, 2024, 427, 136258 (1区TOP期刊)

[17]. Impact of the natural structure of cortex and pith ring on water loss and deformation in bamboo processing, Construction and Building Materials, 2024, 411, 134396(1区TOP期刊)

[18]. Integrated wood surface densification and Al2O3/melamine impregnated paper coating process: Properties evaluation, Industrial Crops and Products, 2024, 222, 119515 (1区TOP期刊)

[19]. Enhancing wood functionality: A novel approach with Al2O3 impregnated paper on densified wood surface, Journal of Materials Research and Technology, 2024, 29, 3456-3464

[20]. Observation of the fundamental properties of bamboo pith ring, Wood Science and Technology, 2024, 58 (2), 797-810

[21]. Balancing the strength and toughness in delignified bamboo through the changing of silicon composition, Materials & Design, 2024 247, 113408

[22].    A Novel Bamboo–Wood Composite Utilizing High-Utilization, Easy-to-Manufacture Bamboo Units: Optimization of Mechanical Properties and Bonding Performance, Forests, 2024, 15 (4), 716

[23]. Eco-friendly, high-utilization, and easy-manufacturing bamboo units for engineered bamboo products: Processing and mechanical characterization, Composites Part B: Engineering, 2023, 267, 111073 (1区TOP期刊)

[24]. An integrated hydrothermal process of bamboo flattening, densification and drying: Mechanical properties and strengthening mechanisms, Materials & Design, 2023, 226, 111610 (2区TOP期刊，封面文章)

[25]. High-performance, low-cost, chemical-free, and reusable bamboo drinking straw: An all-natural substitute for plastic straws, Industrial Crops and Products, 2023, 200, 116829 (1区TOP期刊)

[26]. Effects of integrated process of flattening and densification on the gradient structure and properties of Moso Bamboo, Construction and Building Materials, 2023,392, 132073 (1区TOP期刊)

[27]. Structural Characteristics of Reaction Tissue in Plants, Plants, 2023, 12 (8), 1705

[28]. A novel bamboo engineering material with uniform density, high strength, and high utilization rate, Industrial Crops and Products, 2022, 184, 115045 (1区TOP期刊)

[29]. Bamboo heat treatments and their effects on bamboo properties, Construction and Building Materials, 2022, 331, 127320 (1区TOP期刊)

[30]. Wood mechanical densification: a review on processing, Materials and Manufacturing Processes, 2022, 37 (4), 359-371

[31]. Axial Compression Behaviors of Columns Fabricated from Bamboo Oriented Strand Boards, Forests, 2022, 13 (11), 1817

[32]. Penetration and distribution of rosin along the longitudinal axis of round bamboo culm, Construction and Building Materials, 2021, 305, 124781 (1区TOP期刊)

[33]. 竹饮用吸管的研发与产品国际标准制定, 林业科学，2025, 网络首发

[34]. 树木生长应力的形成机理，林业科学，2024, 60(10), 154-163

[35]. 基于“以竹代塑”背景下的吸管现状综述，林产工业，2025，62（09）：75-81

[36]. 过热蒸汽处理对竹展平板的翘曲度及颜色的影响. 中南林业科技大学学报，2022, 42(12), 168-176

ResearchGate个人主页：https://www.researchgate.net/profile/Chang-Hua-Fang

Google Scholar 个人主页：https://scholar.google.com/citations?user=EUfL8aIAAAAJ&hl=en