王伟宏 博士生导师

博士招生：林业工程-木材科学与技术

学术硕士招生学科：林业工程-木材科学与技术

专业硕士招生学科：材料与化工-林业工程

研究方向：

1.生物质复合材料，人造板，

2.纤维素增强聚合物，秸秆利用等

邮箱：weihongwang2001@nefu.edu.cn

学习与工作经历：

2008.09.18-至今 东北林业大学 教授

2010.01.15-2010.07.30加拿大多伦多大学 访问学者

2003.09.16-2008.09.17东北林业大学 副教授

2002.08.15-2003.09.15美国俄勒冈州立大学 博士后

1996.06.16-2003.08.14东北林业大学 讲师

1990.11.01-1996.06.15黑龙江省林业设计研究院 工程师

主讲课程：

1.研究生课程《生物质复合材料学》

2.本科室课程《专业英语》

3.本科生课程《木结构建筑概论》

科研经历：

主持国家级、省部级、横向课题30余项，获得专利20项，发表学术著作和文章百余篇。

1.基于农林废旧生物质的轻质复合材料构，黑龙江省自然科学基金/黑龙江省科技厅，2024.12-2027.12

2.农业秸秆多尺度、多功能全资源化利用关键技术,东北林业大学“碳中和”专项科学基金项目, 2022.11-2025.11

3.非连续木质化纤维构建热塑性预浸料的机理研究及力学行为模拟，国家自然科学基金/国家自然科学基金委员会2021.01-2024.12

4.大幅面低表面能聚合物基复合材与木质材料层积复合界面的构件及其作用机制，国家自然科学基金/国家自然科学基金委员会2017.01-2020.12

5.功能化木塑表面装饰技术研究,广东省重点领域研发项目研究任务/广东省科技厅，2020.07-2023.07

6.竹纤维增强聚合物基复合材料制备与评价“十三五”国家重大计划研发课题任务/科技部2017.07-2020.12

7.低表面能生物质/聚合物复合材与木质单板层积胶合工艺及机理研究 省自然科学基金重点项目/黑龙江省科技厅2016.07-2019.07

8.绿色节能木塑门窗关键技术研究与示范林业公益性行业科研专项经费重点项目/国家林业局2012.01-2015.12

9.木塑门窗制造技术与性能评价国家科技支撑计划课题任务书/科学技术部2012.01-2014.12

10.生物质复合材料成型新工艺和功能化技术研究中央高校基本科研业务费专项资金项目创新团队持续发展专项/东北林业大学2017.07-2019.12

11.杨木基大幅面绝缘材料制备技术研究与示范江苏省科技计划/江苏省科技厅2014.05-2015.12

12.高附加值生物质复合材料制造技术中央高校基本科研业务费创新团队项目/东北林业大学2012.05-2015.05

13.生物质纤维性状及分布对生物质纤维/聚合物复合材料蠕变的作用机制 国家自然科学基金/国家自然科学基金委员会2011.01-2013.12

论著情况：

1.Relationship between surfactant content and the properties of microfibrillated cellulose/high density polyethylene composites,Xiaohui Yang;Weihong Wang; Mei Long; Li Xiang; Yan Cao; Jianxiu Hao,Polymer Composites, 2024

2.A cellulose-based film with self-healing performance for light management,Shuang Li; Boyu Cui; Xue Jia;Weihong Wang; Yutong Cui; Jiayan Ding; Yiqun Fang; Yongming Song; Xianquan Zhang,Industrial Crops and Products, 2024, 212: 118312

3.The use of wood veneer to beautify wood plastic composites,Yanan Sun; Yinan Liu;Weihong Wang; Weidong Shan; Tingwen Shen,International Journal of Adhesion and Adhesives, 2024, 132: 103659

4.Cellulose-based light-management film exhibiting flame-retardant and thermal-healing properties,Shuang Li; Boyu Cui; Xue Jia;Weihong Wang; Yutong Cui; Jiayan Ding; Chunmao Yang; Yiqun Fang; Yongming Song; Xianquan Zhang,

International Journal of Biological Macromolecules, 2024, 265: 130447

5.织物装饰木塑板的制备工艺及性能,周雪莲;郝硕;单伟东;王伟宏;房轶群;刘天,复合材料学报, 2024, 41(4): 1809-1819

6.Preparing microcrystalline cellulose‐reinforced polylactic acid composites by an energy saving method,Xue Jia; Boyu Cui; shuang Li; Hao Xie;Weihong Wang; Yutong Cui; Jiayan Ding; Xianquan Zhang; Yongming Song,Polymer Composites, 2023, 40(10): 5630-5640. SCIE.

7.Bio-inspired, UV-blocking, water-stable and antioxidant lignin/cellulose films combining high strength, toughness and flexibility,Boyu Cui; Liangxian Liu; Shuang Li; Wen Wang; Lei Tan; Chaodong Liu;Weihong Wang,Materials Chemistry Frontiers, 2023, (7): 897. SCIE.

8.稻秸增强酚醛泡沫保温材料的制备与性能,郝硕;谢浩;李爽;王伟宏,复合材料学报, 2023, 40(10): 5630-5640. EI.

9.以石塑为表层的WF/HDPE夹层结构复合材料的性能,霍玉娜;魏童;周雪莲;孙亚楠;单伟东;王伟宏,林业工程学报, 2023, 8(4): 27-34

10.Lignin/ammonium polyphosphate-modified wood flour/high-densitypolyethylene composites,Tong Wei; Xin Yang; Yuna Huo; Xue Jia; Weidong Shan;Weihong Wang,Materials Chemistry and Physics, 2022, 290:126594-126594. SCIE.

11.Strong Cellulose-Based Light-Management Film with Ultraviolet Blocking and Near-Infrared Shielding Performance,Shuang Li; Boyu Cui; Hao Xie; Xue Jia; Shuo Hao;Weihong Wang,ACS Applied Materials & Interfaces, 2022, 14(37): 42522-42530. SCIE.

12.Exploring the macroscopic and microscopic characteristics of rice stalk for utilization in bio-composites,Hao Xie; Boyu Cui; Shuo Hao; Shuang Li; Xue Jia;Weihong Wang,Composites Science and Technology, 2022, 230: 109728-109728. SCIE.

13.A New Process of Preparing Rice Straw-Reinforced LLDPE Composite,Huicheng Xu; Mengyuan Dun; Zhengqi Zhang; Lei Zhang; Weidong Shan;Weihong Wang,Polymers, 2022, 14(11): 2243-2243. SCIE.

14.Improve the bonding between wood veneer and wood fiber/ high‐density polyethylene composite board for decoration,Xuelian Zhou; Tingwen Shen; Yanan Sun; Mengyuan Dun; Weidong Shan;Weihong Wang,Polymer Composites, 2022, 43(4): 2163-2174

15.Characterization of the structural rheological properties of wood flour–polyethylene composites with ultrahigh filling on the basis of uniaxial cyclic compression method,Haitao Fu; Mengyuan Dun; Haigang Wang; Chuwen Zou; Limin Wang; Zhifang Zhou;Weihong Wang; Yanjun Xie; Qingwen Wang,Composites Part A: Applied Science and Manufacturing, 2022, 153: 106724

16.Anisotropic, ultrastrong and light-transmission film designed on wheat straw,Boyu Cui; Hao Xie; Hao Sun; Tong Ji; Shuang Li; Xue Jia;Weihong Wang

Journal of materials chemistry. A, Materials for energy and sustainability, 2022, 10(24): 12968-12976. SCIE.

17.Biocomposites of Polylactic Acid Reinforced by DL-Lactic Acid-Grafted Microfibrillated Cellulose,Chaodong Liu; Yutong Yang; Boyu Cui;Weihong Wang,

Journal of Renewable Materials, 2022, 10(6): 1-12

18.Fabrication of long bamboo fiber-reinforced thermoplastic composite by extrusion and improvement of its properties,Jianxiu Hao; Xin Yi; Guanggong Zong; Yongming Song;Weihong Wang; Haitao Cheng; Ge Wang,Industrial Crops and Products, 2021, 173: 114120

19.Tailoring flexible interphases in bamboo fiber-reinforced linear low-density polyethylene composites,Mengyuan Dun; Haitao Fu; Jianxiu Hao; Weidong Shan;Weihong Wang,Composites Part A: Applied Science and Manufacturing, 2021, 150: 106606

20.Improving the combination of cellulose and lignin using xylan as a compatibilizer,Liangxian Liu; Boyu Cui; Lei Tan;Weihong Wang,Cellulose, 2021, 28: 5335-5349. SCIE.