基本情况
姓 名:侯少丹
学 位:工学博士
职 称:讲师
专业领域:土木工程
联系地址:绍兴市越城区环城西路508号志廉楼207A
联系电话:18658560717
E-mail:hsd2017@tongji.edu.cn,hsd622@163.com
研究方向
1.再生混凝土材料与结构
2. 3D打印混凝土材料
3.混凝土流变性
4.建筑固废资源化利用技术
教育背景
2017/9-2021/6 同济大学土木工程博士
2014/9-2017/6 山东农业大学土木工程硕士
2010/9-2014/6 山东农业大学土木工程学士
工作经历
2021/8-至今 绍兴文理学院讲师
2021/11-2023.12浙江精工钢结构集团有限公司、同济大学博士后
科研项目
[1]浙江省基础公益研究计划项目,3D打印再生混凝土流变性发展及对层间界面性能的影响机理研究,2024.1-2026.12,主持
[2]绍兴市产业关键技术攻关项目,多源建筑固废制备再生粉体关键技术及多路径产业化应用研究,2024.1-2025.12,主持
[3]高碱度工业污水的CO2降碱处理及CO2吸收评价,浙江益德环境科技有限公司,2024.1.-2025.12,主持
[4]小城镇环境综合整治“回头看”及美丽城镇建设省级样板复评指导项目,绍兴市住房和城乡建设局,2022.6-2023.6,主持
[5]国家自然科学基金面上项目,再生混凝土早期收缩调控机理与预测模型,2022-01-01至2025-12-31,参与
[6]侯少丹(2/15),建筑垃圾制备低碳再生胶凝材料应用研究与产业化推广,中国商业联合会,科技进步一等奖,2023
代表论文
[1]Shaodan Hou, Changyu Fang, Shangquan Chen, Yueqing Gao, Chaofeng Liang, Mingzhi Guo, Jun Ye, Zhiming Ma,Effect of recycled brick powder on corrosion of reinforced concrete under the action of chloride or carbonation.Journal of Materials in Civil Engineering, 2024. (Accepted)
[2]HOU Shaodan, DUAN Zhenhua, YE Taohua, et al. Mechanical properties and pore structure of 3D printed mortar with recycled powder[J]. Construction and Building Materials, 2023,394:132068.
[3]HOU Shaodan, CHE Yu, LU Na, et al. Sustainable utilization of hybrid recycled powder and recycled polyethylene terephthalate fiber in mortar: Strength, durability and microstructure[J]. Journal of Building Engineering, 2023,63:105541.
[4]XIAO Jianzhuang,HOU Shaodan*,DUAN Zhenhua, et al. Rheology of 3D printable concrete prepared by secondary mixing of ready-mix concrete[J]. Cement and Concrete Composites, 2023,138:104958.
[5]GAO Yueqing, CUI Xinzhong, LU Na,HOU Shaodan*, et al. Effect of recycled powders on the mechanical properties and durability of fully recycled fiber-reinforced mortar[J]. Journal of Building Engineering, 2022,45:103574.
[6]LIANG Chaofeng, YOU Jinkui, GU Feng,HOU Shaodan*, et al. Enhancing the elastic modulus of concrete prepared with recycled coarse aggregates of different quality by chemical modifications[J]. Construction and Building Materials, 2022,360:129590.
[7]HOU Shaodan, DUAN Zhenhua, XIAO Jianzhuang, et al. Effect of moisture condition and brick content in recycled coarse aggregate on rheological properties of fresh concrete[J]. Journal of Building Engineering, 2021,35:102075.
[8]HOU Shaodan, DUAN Zhenhua, XIAO Jianzhuang, et al. A review of 3D printed concrete: Performance requirements, testing measurements and mix design[J]. Construction and Building Materials, 2021,273:121745.
[9]HOU Shaodan, XIAO Jianzhuang, DUAN Zhenhua, et al. Fresh properties of 3D printed mortar with recycled powder[J]. Construction and Building Materials, 2021,309:125186.
[10]侯少丹,肖建庄,段珍华. 3D打印细石混凝土调配及其可打印性和力学性能[J].建筑材料学报, 2021:1-11.
[11]HOU Shaodan, DUAN Zhenhua, MA Zhiming, et al. Improvement on the properties of waste glass mortar with nanomaterials[J]. Construction and Building Materials, 2020,254:118973.
[12]LI Biao,HOU Shaodan, DUAN Zhenhua, et al. Rheological behavior and compressive strength of concrete made with recycled fine aggregate of different size range[J]. Construction and Building Materials, 2020:121172.(共同一作)
[13]HOU Shaodan, LIU Fusheng, WANG Shaojie, et al. Coupled heat and moisture transfer in hollow concrete block wall filled with compressed straw bricks[J]. Energy and Buildings, 2017,135:74-84.