史健喆,男,1990年3月生于江苏镇江,中共党员,工学博士,讲师。主要从事纤维增强复合材料(FRP)及其加固/增强工程结构的研究,入选江苏省“双创博士”计划,主持/参与多个科研项目,其中国家级项目5项,省部级项目1项,校级项目1项。发表SCI/EI论文19篇(第一/第二作者论文13篇),申请发明专利7项(已授权4项),出版专著3部(主编1部,参编2部)。主讲本科课程《钢筋混凝土结构》、《Reinforced Concrete Structures》(留学生)和研究生课程《土木工程新结构》,获第十届江苏省高校土木工程专业青年教师讲课竞赛一等奖。
教育经历:
2012.09-2019.03,东南大学土木工程学院,博士研究生(本科直博)/工学博士
2016.12-2017.06,日本北海道大学工学院,联合培养博士研究生
2008.09-2012.06,东南大学土木工程学院,本科/工学学士
工作经历:
2020.07-至今,河海大学土木与交通学院,结构工程研究所,讲师
发表期刊论文:
1. Shi J, Wang X, Ding L, Wu Z. Degradation of creep behaviors of basalt fiber-reinforced polymer tendons in salt solution. Journal of Materials in Civil Engineering, 2018, 30(12): 04018317 (SCI/EI)
2. Shi J, Wang X, Wu Z, Zhu Z. Fatigue behavior of basalt fiber-reinforced polymer tendons under a marine environment. Construction and Building Materials, 2017, 137: 46-54 (SCI/EI)
3. Shi J, Wang X, Huang H, Wu Z. Relaxation behavior of prestressing basalt fiber-reinforced polymer tendons considering anchorage slippage. Journal of Composite Materials, 2017, 51(9): 1275-1284 (SCI/EI)
4. Shi J, Wang X, Wu Z, Zhu Z. Effects of radial stress at anchor zone on tensile properties of basalt fiber-reinforced polymer tendons. Journal of Reinforced Plastics and Composites, 2015, 34(23): 1937-1949 (SCI/EI)
5. Shi J, Wang X, Wu Z, Zhu Z. Creep behavior enhancement of a basalt fiber-reinforced polymer tendon. Construction and Building Materials, 2015, 94: 750-757 (SCI/EI)
6. 史健喆. 体外预应力纤维增强树脂基复合材料筋混凝土结构研究进展. 复合材料学报, 2021, 38(7): 2092-2106 (EI)
7. 史健喆, 汪昕, 吴智深. 采用同源材料夹片锚具的玄武岩纤维复材筋体外预应力加固混凝土梁受弯性能研究. 工业建筑, 2019, 9: 156-160 (国内核心期刊, 入选“《工业建筑》期刊2019-2020年度高影响力论文榜单”)
8. 史健喆, 汪昕, 孙沈鹏, 朱中国, 吴智深. 预应力复材模壳-混凝土组合桥面板性能研究. 工业建筑, 2016, 46(5): 38-42 (国内核心期刊)
9. Wang X, Shi J, Ding L, Jin Y, Wu Z. Durability of coral-reef-sand concrete beams reinforced with basalt fibre-reinforced polymer bars in seawater. Advances in Structural Engineering, 2021, 24(4): 136943322098166 (SCI/EI)
10. Ding L, Shi, J, Wang X, Liu Y, Jin Y, Wu Z. Bond behavior between basalt fiber-reinforced polymer rebars and coral-reef-sand concrete conditioned in saline solution. Structural Concrete, 2020, 21(2): 659-672 (SCI/EI)
11. Ding L, Shi J, Wang X, Wu Z. Optimization of a prestressed fiber-reinforced polymer shell for composite bridge deck. Structure and Infrastructure Engineering, 2018, 15(4): 454-466 (SCI/EI)
12. Wang X, Shi J, Wu Z, Zhu Z. Creep strain control by pretension for basalt fiber-reinforced polymer tendon in civil applications. Materials & Design, 2016, 89: 1270-1277 (SCI/EI)
13. Wang X, Shi J, Wu Z, Zhu Z. Fatigue behavior of basalt fiber-reinforced polymer tendons for prestressing applications. Journal of Composites for Construction, 2016, 20(3): 04015079 (SCI/EI)
14. Wang X, Shi J, Wu G, Yang L, Wu Z. Effectiveness of basalt FRP tendons for strengthening of RC beams through the external prestressing technique. Engineering Structures, 2015, 101: 34-44 (SCI/EI)
15. Wang X, Shi J, Liu J, Yang L, Wu Z. Creep behavior of basalt fiber reinforced polymer tendons for prestressing application. Materials & Design, 2014, 59: 558-564 (SCI/EI)
16. Liu C, Wang X, Shi J, Liu L, Wu Z. Experimental study on the flexural behavior of RC beams strengthened with prestressed BFRP laminates. Engineering Structures, 2021, 223: 111801. (SCI/EI)
17. 吴智深, 汪昕, 史健喆. 玄武岩纤维复合材料性能提升及其新型结构. 工程力学, 2020, 37(5): 1-14 (EI, 入选“中国精品科技期刊顶尖论文”)
18. Wang X, Ali N M, Ding L, Shi, J, Wu Z. Static behavior of RC deck slabs partially prestressed with hybrid fiber reinforced polymer tendons. Structural Concrete, 2018, 19(6): 1895-1907 (SCI/EI)
19. Wang X, Xu P, Wu Z, Shi J. A novel anchor method for multi-tendon FRP cable: Concept and FE study. Composite Structures, 2015, 120: 552-564 (SCI/EI)
20. Wang X, Xu P, Wu Z, Shi J. A novel anchor method for multitendon FRP cable: manufacturing and experimental study. Journal of Composites for Construction, 2015, 19(6): 04015010 (SCI/EI)
21. Yang Y, Fahmy M F M, Cui J, Pan Z, Shi J. Nonlinear behavior analysis of flexural strengthening of RC beams with NSM FRP laminates. Structures, 2019, 20: 374-384 (SCI/EI)
22. 吴智深, 刘加平, 邹德辉, 汪昕, 史健喆. 海洋桥梁工程轻质、高强、耐久性结构材料现状及发展趋势研究. 中国工程科学, 2019, 21(3): 31-40 (国内核心期刊)
发明专利:
1. 吴智深, 汪昕, 史健喆, 朱中国. 一种FRP筋锚固用扩大端头、加工方法及锚固方法. ZL201910509310.9, 授权日: 2021-08-06
2. 吴智深, 汪昕, 史健喆, 朱中国. 一种纤维增强复合材料筋的连接方法. ZL201910225054.0, 授权日: 2021-04-06
3. 汪昕, 吴智深, 张磊, 史健喆, 朱中国. 一种FRP筋锚固用夹片、加工方法及锚固方法. ZL 201910162243.8, 授权日: 2021-02-26
4. 汪昕, 吴智深, 刘长源, 史健喆, 朱中国. 一种曲率可变的体外预应力筋多用转向装置. ZL201910225055.5, 授权日: 2020-11-20
5. 汪昕, 史健喆, 刘长源, 吴智深, 张磊, 朱中国. 一种光面FRP棒材锚固方法. 申请号: 201911247977.2, 公开日: 2020-04-17 (申请中)
6. 汪昕, 吴智深, 史健喆, 刘长源, 朱中国, 钱璐. 一种通过优化带肋FRP筋实现混凝土梁构件抗裂的方法. 申请号: 201911393997.0, 公开日: 2020-05-19 (申请中)
7. 朱中国, 吴智深, 汪昕, 刘长源, 史健喆. 一种高强FRP材料的拉挤装置及制备工艺. 申请号: 202010349888.5, 公开日: 2020-08-07 (申请中)
专著:
1. 吴智深, 汪昕, 史健喆. 土木工程纤维增强复合材料. ISBN: 978-7-113-27648-5. 中国铁道出版社, 2020
2. 吴刚, 吴智深. 新型高效结构加固技术. 人民交通出版社, 2021 (编写第十章)
3. 吴智深, 汪昕, 吴刚. FRP增强工程结构体系. ISBN: 978-7-03-045946-6. 科学出版社, 2016 (编写第二章)
通讯地址:南京市西康路1号河海大学科学馆,210098
E-mail: sjz@hhu.edu.cn