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朱海堂教授

发布日期:2023-12-15  来源:   点击量:

朱海堂,男,工学博士,河南工程学院二级教授,郑州大学博士研究生导师。河南省高层次人才,河南省科技创新杰出青年,河南省高校科技创新人才,河南省教育厅学术带头人,河南省政府特殊津贴专家。现任河南工程学院建筑装配化产业研究院院长河南省装配式建筑结构体系与灾变防控工程研究中心主任、河南省装配式建筑智能建造国际联合实验室主任


工作经历

1987年至2019郑州大学讲师、副教授、教授、博士生导师;

2005年至2006日本茨城大学访问研究员;

20192022年,河南工程学院二级教授、土木工程学院副院长;

2022年至今河南工程学院建筑装配化产业研究院院长


社会兼职

1. 中国土木工程学会混凝土与预应力分会副秘书长

2. 中国复合材料学会土木工程复合材料分会常务理事

3. 中国建筑学会建筑材料分会理事

4. 中国土木工程学会先进工程材料分会理事

5. 中国建筑学会建筑材料测试技术委员会副主任委员


科技获奖

1. 2010年度国家科技进步二等奖;

2. 2011年度河南省科技进步一等奖;

3. 2011年度教育部科技成果一等奖;

4. 2023年度河南省科技进步二等奖;

5. 2016年度河南省科技进步二等奖;

6. 2012年度河南省科技进步二等奖;

7. 2008年度河南省科技进步二等奖;

8. 2005年度河南省科技进步二等奖;

9. 2004年度河南省科技进步二等奖;

10. 2001年度河南省科技进步二等奖;

11. 1999年度河南省科技进步二等奖;

12. 2015年度河南省科技进步三等奖;

13. 2010年度河南省科技进步三等奖;

14. 1998年度河南省科技进步三等奖。



科研项目

[1] 国家自然科学基金面上项目,疲劳荷载下CFRP筋预应力粗骨料UHPC箱梁受弯性能与计算理论(52378234,主持,2024.01-2026.12;

[2] 国家自然科学基金面上项目,湿热高盐环境下纤维混凝土本构关系与疲劳性能研究(51779231,主持,2018.01-2020.12;

[3] 国家自然科学基金面上项目,疲劳荷载下FRP筋钢纤维高强混凝土梁的破坏机理与计算理论(51578510,主持,2016.01-2018.12;

[4] 国家自然科学基金面上项目,FRP筋钢纤维高强混凝土梁受弯性能与设计方法研究(51178433,主持,2012.01-2015.12;

[5] 国家自然科学基金面上项目,纤维增强聚合物(FRP)筋混凝土双向板冲切性能研究50879082),主持,2009.01-2011.12;

[6] 国家重点研发计划重点专项子课题,接缝专用混凝土及浇筑质量控制技术2017YFC0703904-3),主持,2018.01-2021.12;

[7] 河南省科技创新杰出青年人才计划钢纤维高强混凝土梁柱节点抗震性能及其FRP修复研究(094100510009主持,2009.01-2011.12;

[8] 河南省高校科技创新人才支持计划高性能纤维混凝土耐久性劣化模型及机理研究(2008HASTIT027),主持,2008.01-2009.12;

[9] 高等学校博士学科点专项科研基金基于界面特征参数的FRP筋混凝土粘结疲劳机理20134101110010),主持,2014.01-2016.12;

[10] 河南省重点科技攻关计划,固体废弃物的资源化综合利用及绿色水工建材制备技术152102310281),主持,2015.01-2016.12

[11] 河南省自然科学基金,环境与荷载耦合下BFRP筋钢纤维高强混凝土梁受弯性能劣化与计算理论(232300420102),主持,2023.01-2024.12

[12] 中建股份科技研发课题,预应力CFRP-UHPC结构力学性能与设计方法研究CSCE-2021-Z-24主持,2021.01-2023.12

[13] 横向课题,含粗骨料超高性能混凝土材料研发,主持,2021.11-2022.12

[14] 横向课题,郑州市城市防洪规划研究,主持,2005.11-2006.12



2020年以来学术论文:

[1] Haitang Zhu, Zongze Li*, Danying Gao, Hailu Lu, Shangwei Wang, Qingxin Meng. Deformation-based design of hollow coarse-aggregate ultra high performance concrete beams reinforced with CFRP bars. Constr. Build. Mater., 408 (2023): 133588.

[2] Cong Wan, Chuanchuan Li, C., Haitang Zhu*, Serviceability evaluation model of SFRC beams reinforced with FRP bars based on deformation control, Structures, 56 (2023): 104807.

[3] Haitang Zhu, Yunjian He, Gaochuang Cai*, Bond performance of carbon fiber reinforced polymer rebars in ultra-high-performance concrete. Constr. Build. Mater., 387 (2023): 131646.

[4] Shangwei Wang, Bo Wang, Haitang Zhu*, Gang Chen, Zongze Li, et al. Ultra-high performance concrete: Mix design, raw materials and curing regimes-A review [J]. Materials Today Communications, 35 (2023), 105468.

[5] Zhang, Shun, Gao, Danying*, Zhu, Haitang, Flexural behavior of seawater-mixed steel fiber reinforced concrete exposed to simulated marine environments, Constr. Build. Mater., 373 (2023): 130858.

[6] Haitang Zhu, Qun Chen, Zongze Li*, et al. Evaluation of Deformation for Steel Fiber Concrete Beams with BFRP Tendons Eroded by Seawater under Cyclic Loading [J]. Polymers, 2023, 15 (1), 62.

[7] Wang, Shangwei, Haitang Zhu*, Liu, Fan, Effects of steel fibers and concrete strength on flexural toughness of ultra-high performance concrete with coarse aggregate, Case Studies in Construction Materials, 17 2022):e01170.

[8] Zhu, Haitang, Chen, Weige*, Cheng, Shengzhao, Low carbon and high efficiency limestone-calcined clay as supplementary cementitious materials (SCMs): Multi-indicator comparison with conventional SCMs, Constr. Build. Mater., 341 (2022): 127748.

[9] Haitang Zhu, Zongze Li*, Qun Chen, et al. A New Analytical Model for Deflection of Concrete Beams Reinforced by BFRP Bars and Steel Fibres under Cyclic Loading [J]. Polymers, 2022, 14 (9), 1797.

[10] Zhu, Haitang, Li, Chuanchuan*, Cheng, Shengzhao, Flexural Performance of Concrete Beams Reinforced with Continuous FRP Bars and Discrete Steel Fibers under Cyclic Loads, Polymers, 14 (2022):1399.

[11] Li Chuanchuan, Zhu Haitang*, Niu Guoqiang, Flexural behavior and a new model for flexural design of concrete beams hybridly reinforced by continuous FRP bars and discrete steel fibers, Structures, 38 (2022): 949-960.

[12] Haitang Zhu*, Yunjian He, Dongdong Ji, Experimental Research on the Mechanical Properties and Autogenous Shrinkage of Precast Members Joint Concrete, Buildings, (12) 2022:373.

[13] Gang Chen, Danying Gao*, Haitang Zhu, Effects of novel multiple hooked-end steel fibres on flexural tensile behaviour of notched concrete beams with various strength grades, Structures, (33) 2021:3644-3654.

[14] Zongze Li, Haitang Zhu*, Xuanjiao Zhen, et al. Effects of steel fiber on the flexural behavior and ductility of concrete beams reinforced with BFRP rebars under repeated loading [J]. Composite Structures, 270 (2021) 114072.

[15] Zongze Li, Haitang Zhu*, Chengxiang Du, et al. Experimental study on cracking behavior of steel fiber-reinforced concrete beams with BFRP bars under repeated loading [J]. Composite Structures, 267 (2021) 113878.

[16] Weige Chen, Haitang Zhu*, Zhenhao He, Experimental investigation on chloride-ion penetration resistance of slag containing fiber-reinforced concrete under drying-wetting cycles, Constr. Build. Mater., 274 (2021):121829.

[17] Daochuan Zhou, Haitang ZhuApplication of Ground Penetrating Radar in Detecting Deeply Embedded Reinforcing Bars in Pile FoundationAdvances in Civil Engineering, (2021) 4813415.

[18] 王尚伟,朱海堂,王博,等,混凝土配合比优化设计的紧密堆积理论综述材料导报,2021,353):03085-03091

[19] Haitang Zhu, Zongze Li*, Chengcheng Wen, et al. Prediction model for the flexural strength of steel fiber reinforced concrete beams with fiber-reinforced polymer bars under repeated loading [J]. Composite Structures, 250 (2020) 112609.

[20] Danying Gao, Zhiqiang Gu*, Haitang Zhu, Fatigue behavior assessment for steel fiber reinforced concrete beams through experiment and Fatigue Prediction Model, Structures, 27 (2020):1105-1117.

[21] Yuan Jian SongGao DanyingZhu Haitanget al. Flexural Behavior of Reinforced Concrete Beams Reinforced with Glass Fiber Reinforced Polymer Rectangular Tubes FRONTIERS IN MATERIALS, 72020:577299.

[22] 朱海堂,程晟钊*,高丹盈等,FRP筋钢纤维高强混凝土梁变形性能试验研究铁道学报,2020,4212):162-170.

[23] 朱海堂,程晟钊*,高丹盈等,玄武岩纤维增强聚合物筋钢纤维高强混凝土梁受弯试验及裂缝宽度计算方法研究建筑结构学报,2020,416):133-142.

[24] Haitang Zhu, Chengcheng Wen*, Zhanqiao WanStudy on the Permeability of Recycled Aggregate Pervious Concrete with FibersMaterials 2020, 132):321.


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