张双保
近期热点
资料介绍
个人简历
教育经历 1995/09-1998/07,北京林业大学,森林工业学院,博士,指导教师:赵立教授 1983/09-1986/07,东北林业大学,林产工业系,硕士, 指导教师:包学耕教授 1978/09-1982/07,东北林学院,林产工业系,学士, 指导教师:张广仁教授 工作经历 1998/07 –至今,北京林业大学,材料科学与技术学院,教授/博士生导师 2000/04 – 2002/04,中国林业科学研究院,林业工程博士后流动站,博士后(在职) 1998/07 – 2002/02,北京林业大学,森林工业学院,副教授/硕士生导师兼任副院长/副书记 1992/07 – 1995/09,林业部,林产工业规划设计院,高级工程师 1987/06 – 1992/07,林业部,林产工业规划设计院,工程师 1986/07 – 1987/06,林业部,林产工业规划设计院,助理工程师 1982/07 – 1983/09,东北林学院,帽儿山林场,技术员/助理工程师研究领域
研究领域为木质(天然植物纤维)复合材料与胶黏剂/木材保护与改性。近期论文
[1] Song, W., Zhu, M., & Zhang, S. (2018). Comparison of the properties of fiberboard composites with bamboo green, wood, or their combination as the fibrous raw material. BioResources, 13(2), 3315-3334.[2] Song, W., Xu, Z., & Zhang, S. (2018). Using surface modified E-glass fiber cloths to enhance poplar laminated veneer lumber composites: Effects of modification conditions, gluing processes, hot-pressing parameters, and assembly patterns on physical-mechanical and interfacial properties. BioResources, 13(1), 597-631.[3] Wang, C., Yu, X., Smith, L. M., Wang, G., Cheng, H., & Zhang, S. (2017). Interfacial properties of bamboo fiber-reinforced high-density polyethylene composites by different methods for adding nano calcium carbonate. Polymers, 9(11), 587.[4] Song, W., Wei, W., Ren, C., & Zhang, S. (2017). Effect of heat treatment or alkali treatment of veneers on the mechanical properties of eucalyptus veneer/polyethylene film plywood composites. BioResources, 12(4), 8683-8703.[5] Hong, G., Meng, Y., Yang, Z., Cheng, H., Zhang, S., & Song, W. (2017). Mussel-inspired polydopamine modification of bamboo fiber and its effect on the properties of bamboo fiber/polybutylene succinate composites. BioResources, 12(4), 8419-8442.[6] Song, W., Wei, W., Wang, D., & Zhang, S. (2017). Preparation and properties of new plywood composites made from surface modified veneers and polyvinyl chloride films. BioResources, 12(4), 8320-8339.[7] Yang, Z., Song, W., Cao, Y., Wang, C., Hu, X., Yang, Y., & Zhang, S. (2017). The effect of laccase pretreatment conditions on the mechanical properties of binderless fiberboards with wheat straw. BioResources, 12(2), 3707-3719.[8] Cao, Y., Song, W., Yang, Z., Chen, Z., & Zhang, S. (2017). The properties of particleboard made from alkaline-treated wheat straw and methylene diphenyl diisocyanate binder. BioResources, 12(2), 3265-3276.[9] Wang, C., Wang, S., Cheng, H., Xian, Y., & Zhang, S. (2017). Mechanical properties and prediction for nanocalcium carbonate-treated bamboo fiber/high-density polyethylene composites. Journal of Materials Science, 52(19), 11482-11495.[10] Wang, C., Wang, G., Cheng, H., Zhang, S., Smith, L. M., & Shi, S. Q. (2017). CaCO3 in situ treated bamboo pulp fiber reinforced composites obtained by vacuum-assisted resin infusion. Wood Science and Technology, 51(3), 571-584.[11] Yu, X., Chen, Z., Zhang, S., & Song, W. (2017). Carbon emission assessment in the production process of panel furniture. Journal of Computational and Theoretical Nanoscience, 14(2), 1120-1126.[12] Yu, X., & Zhang, S. (2017). Emission model of volatile organic compounds from furniture. Journal of Computational and Theoretical Nanoscience, 14(2), 1085-1096.[13] Yu, X., Song, W., Wang, C., & Zhang, S. (2017). Product safety risk monitoring of palm fiber elastic mattress. Journal of Computational and Theoretical Nanoscience, 14(1), 490-496.[14] Song, W., Wei, W., Li, X., & Zhang, S. (2016). Utilization of polypropylene film as an adhesive to prepare formaldehyde-free, weather-resistant plywood-like composites: Process optimization, performance evaluation, and interface modification. BioResources, 12(1), 228-254.[15] Wang, C., Song, W., Cheng, H., Yu, X., Li, W., & Zhang, S. (2016). Dipping modification with nano-CaCO3 to improve tensile properties of individual bamboo fiber for developing bamboo-plastic composite. Journal of Natural Fibers, 13(6), 737-748.[16] Song, W., Wei, W., Ren, C., & Zhang, S. (2016). Developing and evaluating composites based on plantation eucalyptus rotary-cut veneer and high-density polyethylene film as novel building materials. BioResources, 11(2), 3318-3331.[17] Song, W., Cao, Y., Wang, D., Hou, G., Shen, Z., & Zhang, S. (2015). An investigation on formaldehyde emission characteristics of wood building materials in Chinese standard tests: Product emission levels, measurement uncertainties, and data correlations between various tests. PloS ONE, 10(12), e0144374.[18] Wang, C., Xian, Y., Cheng, H., Li, W., & Zhang, S. (2015). Tensile properties of bamboo fiber-reinforced polypropylene composites modified by impregnation with calcium carbonate nanoparticles. BioResources, 10(4), 6783-6796.[19] Song, W., Zhao, F., Yu, X., Wang, C., Wei, W., & Zhang, S. (2015). Interfacial characterization and optimal preparation of novel bamboo plastic composite engineering materials. BioResources, 10(3), 5049-5070.[20] Cheng, H., Gao, J., Wang, G., Shi, S. Q., Zhang, S., & Cai, L. (2015). Enhancement of mechanical properties of composites made of calcium carbonate modified bamboo fibers and polypropylene. Holzforschung, 69(2), 215-221. 相关热点