张双保

点击数:   更新日期: 2018-04-17

张双保横版照片-长宽比5比3.jpg   张双保   教授、博士生导师


  性 别:男

  电子邮箱shuangbaozhang@163.com

  办公电话136 8159 3543

  研究方向:木质复合材料与胶黏剂


详细资料

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教育/工作经历

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

主讲课程

本科生课程:

1)木材科学与工程专业 人造板工程设计》、《木工企业管理与法规》、《建筑材料学

2)包装工程专业 《包装管理与法规》、《林产化学加工工程专业》、《胶黏剂生产工艺学》

研究生课程:《木质复合材料与胶黏剂

科研工作及成果

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。

作为科技工作者:主持及参加完成了40余项科研项目,有近100家生产企业应用其成果;作为工程设计人员:主持及参加完成了10余项林产工业工程项目;作为监理工程师:参与完成了5项林产工业工程项目;作为教师:主讲过5门研究生课程、9门本科生课程,培养(正在)90余名博士后、博士及硕士研究生和指导过101名本科生完成毕业论文(设计)。

近年来承担项目:“十三五”国家重点研发计划(2017YFD0600804)、国家自然科学基金(2010310705012016:31670571)、北京市自然科学基金:2012212204520166162019)、中华环保基金会秀培育基金(2010)、北京市教育委员会共建项目(2010201220142016)、 林业行业标准项目(LY/T 2565-2012012-LY-0652010-LY-133LY/T 2061-2012LY/T 2379-2014LY/T 2378-2014)及浙江省共建项目(CZXC201410)等课题。迄今为止,在国内外专业期刊发表科技论文100余篇,其中SCI/EI/ISTP/CSCD收录多篇;参编教材或专著4部,申报国家发明专利20余件。

奖励及荣誉称号

12015, 北京, 北京市“孝星”.

22014, 北京, 海淀区“五好文明家庭”标兵.

32013, 北京, 中国林业教育学会第三届“高等林(农)业教育研究”优秀论文三等奖.

42012, 北京, 北京市高教学会实验室工作研究会“2012年学术研讨会”优秀论文二等奖.

52011, 北京, 北京市第二届职工技能大赛“优秀裁判员”奖, “先进工作者”奖.

62006, 北京, 北京市教育系统工会积极分子奖.

72001, 北京, 教育部、团中央、北京市大学生“挑战杯”赛全国三等奖、北京市一、二等奖(指导教师).

8)北京市“赴内蒙古大兴安岭三下乡博士后社会实践团”之“社会实践优秀团队”奖(团长).

92000, 北京, 团中央、北京市“赴内蒙古三下乡博士社会实践团”之“社会实践优秀团队”奖(团长).

101998, 北京, 全国林业系统十佳大学生奖.

111997, 北京, 宝钢教育基金奖.

121993, 北京, 国家科技进步三等奖(排名第2, 全国高新技术成果金奖(排名第2.

131992, 北京, 林业部科技进步一等奖(排名第2.

141991, 北京, 国家级重点科技推广项目奖(排名第2.

151990, 北京, 林业部重点科技推广项目奖(排名第2.

学术/社会兼职

中国林学会木材科学分会及生物质材料分会、中国木材保护协会、全国专业标准化委员会、全国人造板标准化委员会及竹(藤)材标准委员会等(理事)委员。

曾被聘为1.科技部“国家科技计划(“863”计划技术方向)、科技进步奖、发明奖”;2.教育部“科技进步奖、发明奖、高等学校专项引智和科研基金、博士点专项基金”;2.人事部“博士后基金”等评审专家;4.国家林业局“科技进步奖、发明奖”等评审专家及“高级职称”评委;5.住建部、国家文物局、环保部“科技项目”、中国林学会“梁希科技进步奖”、黑龙江、河北、山东、浙江、湖南、内蒙古、广西及北京等部委省市“科技进步奖”、“发明奖”、“发明专利项目”和“自然基金”及“政府采购”等评审专家。

受邀担任SCI收录期刊《BioResources》、《Cellulose Chemistry and Technology》、《Materials Research Innovations》、《Holzforschung》、《Indoor and built environment》、《Science of Advanced Materials》,EI收录期刊《Transactions of the Chinese Society of Agricultural Engineering》、《Acta Materiae Compositae Sinica》、《Journal of Building Materials》、《Scientia Silvae Sinicae》,CSCD收录期刊《Journal of Forest and Environment》、《Journal of Fujian College of Forestry》,中文核心期刊《Wood Processing Machinery》等期刊评审专家。

学术成果展示

[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.

[21] Wei, W., Song, W., & Zhang, S. (2014). Preparation and characterization of hydroxyapatite-poly (vinyl alcohol) composites reinforced with cellulose nanocrystals. BioResources, 9(4), 6087-6099.

[22] Cheng, H., Gao, J., Wang, G., Shi, S. Q., Zhang, S., & Cai, L. (2014). Effect of temperature on calcium carbonate deposition in situ on bamboo fiber and polymer interfaces. Wood & Fiber Science Journal of the Society of Wood Science & Technology, 46(46), 247-258.

[23] Wang, C., Cheng, H., Yu, X., Ge, W., & Zhang, S. (2017). Improving dynamic mechanical property of bamboo pulp fiber reinforced epoxy resin composite treated by nano calcium carbonate. Transactions of the Chinese Society of Agricultural Engineering, 33(6), 281-287.

[24] Wang, C., Cheng, H., Song W., Li, W., & Zhang, S. (2016). Influence of ultrasonic treatment on mechanical properties of bamboo fibers modified by nanoparticles. Journal of Textile Research, 37(3), 16-20.

[25] Wang, C., Cheng, H., Xian, Y., Song W., Li, W., & Zhang, S. (2016). Effects of impregnation with nano-CaCO3 on tensile properties of bamboo-plastic composite. Materials Review B, 30(1), 61-65.

[26] Xing, F., Song, W., Lu, Z., & Zhang, S. (2015). Research on characteristics of formaldehyde emission of medium density fiberboard based on chamber. Journal of Building Materials, 18(4), 688-691.

[27] 中华人民共和国林业行业标准LY/T 2722-2016 指接材用结构胶黏剂胶合性能测试方法. 北京:中国标准出版社,2016.

[28] 中华人民共和国林业行业标准LY/T 2720-2016 胶合面木破率的测定方法. 北京:中国标准出版社,2016.

[29] 中华人民共和国林业行业标准LT/T 2565-2015 竹塑复合材料. 北京:中国标准出版社,2015.

[30] 中华人民共和国林业行业标准LY T 2061-2012 木质模压工业托盘. 北京:中国标准出版社,2012.