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姓名: 段珍华 性 别: 男 出生年月: 1985.02 工作单位: 同济大学 职称/职务: 助理教授 通讯地址: 上海市杨浦区四平路1239号 邮编: 200092 手 机: 18221608664 (微信) 电子邮箱:zhduan@tongji.edu.cn |
同济大学助理教授、硕士生导师。2015年3月,博士毕业于香港理工大学(导师:潘智生教授),2016年加入同济大学肖建庄教授领导的“可持续混凝土材料与结构探究”高峰学科团队,并共同创建了同济大学建筑拆装与资源化工程技术中心。2017年荣获上海市浦江人才称号。
学术兼职中国土木工程学会再生混凝土专业委员会委员兼秘书长
中国硅酸盐学会建筑固废专业委员会委员兼副秘书长
领域主流学术期刊(Cement and Concrete Composites, Construction and Building Materials, Materials and Design, Computers and Concrete等)特约审稿人
研究方向再生混凝土流变性
大数据及人工智能在混凝土中的应用
建筑垃圾资源化
承担项目同济大学青年优秀人才基金-不同品质再生微粉对自密实混凝土流变性能的影响研究(2017.1-2018.12),10万
上海浦江人才计划-再生混凝土流变性能发展规律与调控方法研究(2017.7-2019.6),20万
同济大学土木工程高峰学科学科交叉类合作基金-基于3D打印的再生粉体ECC“油墨”材料制备工艺与性能研究 (2017.9-2019.6),30万
国家青年科学基金-再生混凝土流变性及其预测研究(2018.1-2020.12),21万
SCI文章Duan ZH*, Kou SC, and Poon CS. (2013). Prediction of compressive strength of recycled aggregate concrete using artificial neural networks. Construction & Building Materials, Vol. 40, pp. 1200-1206.
Duan ZH*, Kou SC, and Poon CS. (2013). Using artificial neural networks for predicting the elastic modulus of recycled aggregate concrete. Construction & Building Materials, Vol. 44, pp. 524-532.
Duan ZH*, and Poon CS. (2014). Properties of recycled aggregate concrete made with recycled aggregates with different amounts of old adhered mortars. Materials and Design, Vol. 58, pp.19-29.
Duan ZH*, and Poon CS. (2014). Factors affecting the properties of recycled concrete by using neural networks. Computers and Concrete, Vol. 14, pp.547-561.
Duan ZH*, Poon CS, and Xiao JZ. (2017). Using artificial neural networks to assess the applicability of recycled aggregate classification by different specifications. Materials & Structures, 50(2), 107.
Lu JX, Duan ZH, and Poon CS. (2017). Fresh properties of cement pastes or mortars incorporating waste glass powder and cullet. Construction & Building Materials, Vol. 131, pp. 793-799.
Lu JX, Zhan BJ, Duan ZH, and Poon CS. (2017). Combined use of waste glass powder and cullet in architectural mortar. Cement & Concrete Composites.
Lu JX, Duan ZH, and Poon CS. (2017). Using glass powder to improve the durability of architectural mortar prepared with glass aggregates. Materials and Design.
