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个人资料

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姓名: 王晓东

学位: 工学博士

毕业院校: 哈尔滨工业大学

邮件: wangxiaodong-hit@126.com

办公地点:

电话: 13936447527

出生年月: 1979-12-01

学科: 土木工程

相关教师

个人简历

王晓东,教授。毕业于哈尔滨工业大学,主要从事绿色低碳水泥基材料与结构化应用,混凝土结构设计理论等方面的研究,主持承担国家重点研发计划、国家自然科学基金、黑龙江省自然科学基金项目。在Journal of Zhejiang University SCIENCE A》、《建筑结构学报Journal of Building EngineeringConstruction and Building Materials》等国内外高水平期刊上发表学术论文60获得黑龙江省科技进步二等奖一项,为Construction and Building Materials》、Journal of Building Engineering》、《吉林大学学报》等期刊的审稿人。


教育经历

03/2007-03/2014,哈尔滨工业大学,结构工程,

09/2003-10/2005,哈尔滨工业大学,结构工程,

09/1999-07/2003哈尔滨工业大学,土木工程,学士。

工作经历

09/2021 - 至今,哈尔滨理工大学,建筑工程学院,教授

09/2014-08/2021哈尔滨理工大学,建筑工程学院,副教授

09/2007-08/2014哈尔滨理工大学,建筑工程学院,讲师

研究方向

绿色低碳水泥基材料与结构化应用,混凝土结构设计理论

承担项目

1. 十三五国家重点研发计划子课题,内藏型钢混凝土结构构件电热法拆除技术优化,2017YFC0806100-032017.7-2021.1270万,主持人

2. 黑龙江省自然科学基金联合引导BMSCC预制外壳-内置型钢混凝土构件受力性能研究LH2023E0882023.07-2026.0710万,主持人。

3. 国家自然科学基金面上项目钢管活性粉末混凝土柱高温爆裂机理与抗火性能提升方法522781692023.01-2026.1254万元,参与(4/6

4. 国家自然科学基金青年项目,植物纤维增强碱矿渣胶凝材料砌块砌体耐高温性能研究515081402016.1-2018.1220,参与(2/8

5. 黑龙江省自然科学基金联合引导项目钢管活性粉末混凝土柱高温双轴强度准则与防爆裂机制LH2022E0892022.07-2025.07参与(2/10

6. 黑龙江省自然科学青年基金钢管活性粉末混凝土短柱抗震性能研究QC20170582017.10-2019.125万,参与(3/5

7. 黑龙江省自然科学基金飞行器冲击作用下网壳结构失效模式及机理研究E2014382014.07-2017.077万,参与(2/9)。

8. 横向课题,青岛银座中心高层建筑结构设计,2014.05-2014.0820万,主持人。


教学工作

本科课程:《混凝土结构设计原理》、《结构概念与体系》、《预应力混凝土结构设计》。

研究生课程:《高等混凝土结构》。



招生信息

招收土木水利专业硕士学位研究生。


专利成果

1. 发明专利:一种破碎混凝土的高压脉冲设备ZL201811508946.3,1/3.

2. 发明专利:一种高压脉冲放电破碎混凝土构件的拆除装置ZL201811508925.1,1/6.

3. 发明专利:一种高性能砼永久模板方钢管组合梁及其制作方法ZL202110753479.6,1/7.

4. 发明专利:一种采用预制角钢格构永久模板混凝土柱及其制作方法,ZL202110753476.2,1/7.

5. 实用新型:一种土木工程组合桩ZL201520416026.4,1/5.

6. 实用新型:一种混凝土柱钢筋支撑件ZL201520416027.9,1/5.

7. 实用新型:一种新型膨胀螺栓ZL201420818857.X,1/1.

8. 实用新型:能量衰减导向型防撞护栏ZL201420261028.6,1/1.

出版著作

发表论文

  1. Wang XiaodongZhu Jing.Research and Applications of High-voltage Pulse Discharge Crushing. European Journal of Electrical Engineering,2019,21(2):157~163.(EI检索)

  2. 王晓东,王文琪,张贤圣. 使用阶段柱支撑预应力砼板中无粘结筋应力[J].建筑技术,2019,50(8):1007-1010. 2019.08.

  3. XiaodongWang*Ningjing LiJiaxu DuWenqi Wang. Concrete crushing based on the high-voltage pulse discharge technology. Journal of Building Engineering, 2021,41:102366.(SCI检索,IF=7.144)

  4. XiaodongWang*Jiaxu DuNingjing Li. Research on Crushing Concrete Members by High-voltage Pulse Discharge Technology. Advances in Civil Engineering, 2021:5511959.
    https://doi.org/10.1155/2021/5511959.(SCI    检索,IF=1.924)

  5. 王晓东,李宁静李强. 高压脉冲放电破碎混凝土梁试验[J].吉林大学学报(工学版), 2023,53(2):496~504.(EI检索)

  6. XiaodongWang*, Pingjian Liu, Yixuan Sun, and Wenqi Wang. Study on Breaking Concrete Structures by Pulse Power Technology.Buildings, 2022,12(3):274.(SCI检索IF=3.8)

  7. XiaodongWang*, JiaxuDu and Qiang Li. Experimental Study on Crushing of Concrete Columns by High Voltage Pulse Discharge. Case Studies in Construction Materials, 2022,16:e01090. (SCI检索IF=6.2)

  8. XiaodongWang, Shuyu Huangand Miao Wang*. Research on calculation of unbonded tendon stress increment in prestressed concrete two-way slab during service stage. Case Studies in Construction Materials, 2022,17:e01515.(SCI检索,IF=6.2)

  9. XiaodongWang*, Ningjing Liand Wenqi Wang. Experimental study on crushing of concrete slabs by high-voltage pulse discharg. Construction and Building Materials, 2023,401:132951.

(SCI检索,IF=7.4)

  1. XiaodongWang, Yixuan Sunand Miao Wang*. Simulation Analysis of the Fracture of Reinforcement Concrete Columns Using High-Voltage Pulse Discharge. Buildings,2023, 13(9):2200.(SCI检索,IF=3.8)

  2. XiaodongWang*, Fengjun Ren. Research on axial compression performance of concrete columns with angle steel embedded in BMSCC stay-in-place formwork. Case Studies in Construction Materials, 2023, 19:e02688.(SCI检索,IF=6.2)

  3. XiaodongWang*, Chuanxi Cheng, Shengbao Wang, Wenqi Wang. Study on the flexural behaviour of the concrete filled square steel tube beam with the basic magnesium sulfate cement-based composite shell system. Construction and Building Materials, 2024,424:135968.(SCI检索,IF=7.4)

  4. XiaodongWang*, Haoze Li, Shengbao Wang. Study on mechanical properties of E-glass mat reinforced basic magnesium sulfate cement thin-slab. Construction and Building Materials, 2024,436:137028.(SCI检索,IF=7.4)

  5. XiaodongWang, Chuanxi Cheng, Dongye Wang*. Effect of rice husk ash on mechanical properties of rubber doped geopolymer recycled concrete. Case Studies in Construction Materials, 2024, 20:e03406.(SCI检索,IF=6.2)

  6. XiaodongWang*, Haoze Li, Shengbao Wang. Study on shear performance of BMSCC prefabricated shell and square steel tube composite permanent formwork beam. Construction and Building Materials, 2024,449:138437.(SCI检索,IF=7.4)

  7. Chuanxi Cheng, XiaodongWang*, Xinzhi Wang, Minggang Sun. Salt-freeze resistance and life prediction of geopolymer recycled concrete mixed with rice husk ash and modified rubber particles. Construction and Building Materials, 2024,449:138433.(SCI检索,IF=7.4)

  8. Yixuan Sun, XiaodongWang*, Xinzhi Wang. Copper wire electric explosive crushing of large-size reinforced concrete columns. Structural Concrete, 2025,26(4):4532-4550.(SCI检索,IF=3.0)

  9. Li Dong, XiaodongWang*. Study on mechanical properties of E-glass fiber mat reinforced magnesium phosphate cement thin-slab. Structures, 2025,73:108365.(SCI检索IF=3.9)

  10. XiaodongWang*, Chuanxi Cheng, Xinzhi Wang, Minggang Sun. Study on the mechanical properties of rice husk ash-based geopolymer-regenerated mortar reinforced by polyimide fiber and carbon fiber after high-temperature exposure. Archives of Civil and Mechanical Engineering, 2025,25:157.(SCI检索,IF=4.4)



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