土木工程学院

赖柄霖

通讯方式：bl_lai@seu.edu.cn；laibinglin745494@163.com

研究方向：

UHPC/ECC高性能钢-混凝土组合结构静力、抗震、抗火性能研究
装配式钢/混凝土结构，智能结构
基于数据挖掘和机器学习的结构分析

办公地点：

赖柄霖，男，1993年11月生，四川自贡人，哲学博士，中共党员。毕业于新加坡国立大学，获得土木工程博士学位。2021年4月入职东南大学土木工程学院，从事结构工程相关教学与研究工作。研究方向主要包括钢结构，组合结构，智能结构等。以第一作者或通讯作者在《Engineering Strucutures》《Journal of Constructional Steel Research》《Construction and Building Materials》等国际权威期刊已发表论文10余篇，均为JCR-1区，参与出版英文专著一部，行业规范一部。目前谷歌学术总被引240余次，h-index 9，i10-index 8。

教育背景

2016.08-2020.11 新加坡国立大学，土木工程，博士，导师：J. Y. Richard Liew

2012.09-2016.06 河海大学水利水电工程（大禹学院强化班），学士

工作经历

2021.04-至今东南大学，土木工程学院建筑工程系讲师

2020.07-2021.03 新加坡国立大学，土木工程学院 Research Fellow

学术兼职

美国混凝土协会新加坡学生分会副主席American Concrete Institute (ACI) Singapore Chapter, Student Chapter: Vice President (2019)
《Journal of Structural Engineering》《Engineering Structures》《Journal of Constructional Steel Research》《Steel and Composite Structures》《Thin-Walled Strcutures》等期刊审稿人

教学课程

科研、教改项目

1.灾变力学与工程防灾四川省重点实验室开放课题-ECC包覆式高性能型钢混凝土组合柱抗震性能研究及设计应用（FMEDP202112）2021.10-2022.09: 主持

2.Design of Concrete Encased Composite Columns with High Strength Materials (R-302-000-168-490). Building and Construction Authority, Singapore. 2016.10-2019.09：参与

3.Fast track volumetric construction based on composite design using lightweight high performance materials (R-261-513-009-281). National Research Foundation. 2020.07-2021.03：参与

论文和专著

学术专著

Liew JYR,Xiong MX, Lai BL. Design of Steel-Concrete Composite Structures Using High Strength Materials. Elsevier, Woodhead Publishing Series in Civil and Structural Engineering. 08-2021. https://www.elsevier.com/books/ISBN/9780128233962

行业规范

Liew JYR,Xiong MX, Lai BL. Design Guide for Steel-Concrete Composite Columns with High Strength Materials-An Extension of Eurocode 4 Method to C90/105 Concrete and S550 Steel. Building and Construction Authority, Singapore. 04-2021

代表性论文（近三年）

1. Lai BL, Liew JYR, Wang TY. Buckling behaviour of high strength concrete encased steel composite columns. Journal of Constructional Steel Research 2019; 154: 27-42. (IF: 3.646)

2. Lai BL, Liew JYR,Xiong MX. Experimental Study on High Strength Concrete Encased Steel Composite Short Columns. Construction and Building Materials 2019；228: 116640. (IF: 6.141)

3. Lai BL, Liew JYR, Xiong MX. Experimental and analytical investigation of composite columns made of high strength steel and high strength concrete. Steel and Composite Structures 2019; 33(1): 67-79.(IF: 5.733)

4. Lai BL, Liew JYR, Akshay V, Li S, Xiong MX. Assessment of high-strength concrete encased steel composite columns subject to axial compression. Journal of Constructional Steel Research 2020; 164:105765. (IF: 3.646)

5. Lai BL, Liew JYR, An LH,Xiong MX. A unified approach to evaluate axial force-moment interaction curves of concrete encased steel composite columns. Engineering Structures 2019; 201: 109841. (IF: 4.471)

6. Lai BL, Liew JYR, An LH.Behavior of high strength concrete encased steel composite stub columns with C130 concrete and S690 steel. Engineering Structures 2019; 200: 109743.(IF: 4.471)

7. Lai BL, Liew JYR. Axial-Moment Interaction of High Strength Concrete Encased Steel Composite Columns: Design Recommendation. Journal of Constructional Steel Research 2020；170: 106136. (IF: 3.646)

8. Lai BL, Liew JYR. Design and Testing of Concrete Encased Steel Composite Beam-Columns with C90 Concrete and S690 Steel Section. Engineering Structures 2020; 220: 110995. (IF: 4.471)

9. Lai BL, Liew JYR*. Axial-Moment Interaction of High Strength Concrete Encased Steel Composite Columns: Experimental Investigation. Journal of Constructional Steel Research 2020；175: 106370. (IF: 3.646)

10. Lai BL, Liew JYR*. Investigation on Axial Load-Shorting Behavior of High Strength Concrete Encased Steel Composite Section. Engineering Structures 2021: 227: 111401. (IF: 4.471)

11. Lai BL*, Yang L, Xiong MX. Numerical simulation and data-driven analysis on the flexural performance of steel reinforced concrete composite members. Engineering Structures 2021: 247:113200 (IF: 4.471)

12. Le Hoang A, Fehling E, Lai BL, Thai DK, Van Chau N. Experimental study on structural performance of UHPC and UHPFRC columns confined with steel tube. Engineering Structures 2019; 187:457-77.

13. Akshay V, Lai BL, Liew JYR*. Design of Steel Fiber Reinforced Concrete Encased Steel Columns. ACI Structural Journal 2021: 118 (1): 45-59

14. Li S, Liew JYR*, Xiong MX, Lai BL. Experimental Investigation on Fire Resistance of High-Strength Concrete Encased Steel Composite Columns. Fire Safety Journal 2021: 121: 103273.

15. Phong T. Le, An LH*, Lai BL. Test and simulation of circular steel tube confined concrete (STCC) columns made of plain UHPC. Structural Engineering and Mechanics 2020: 75(6): 643-657.

16. Xiong MX, Liew JR, Wang YB*, Xiong DX, Lai BL. Effects of coarse aggregates on physical and mechanical properties of C170/185 ultra-high strength concrete and compressive behaviour of CFST columns. Construction and Building Materials 2020; 240: 117967.

17. Liu, Z., Wang, X., Zhou, Z., Xue, J., Lai BL. & Xu, J. 2021. Experimental and numerical study on seismic performance of steel reinforced concrete spatial frame with irregular section columns, Engineering structures, vol. 242, pp. 112507.

会议论文

1. Lai BL, Liew JYR, Li S, Wang TY, Wang Y. Numerical modelling of high strength concrete encased steel composite columns under compression and uniaxial bending. 9th International Symposium on Steel Structures, November 1-4, 2017, Jeju, Korea.

2. Lai BL, Liew JYR, Li S. Finite element analysis of concrete-encased steel composite columns with off-center steel section. 12th International Conference on Advances in Steel-Concrete Composite Structures (ASCCS 2018) Universitat Politècnica de València, València, Spain, June 27-29, 2018.

3. Lai BL, Liew JYR. Interactional diagrams methodology for the design of Steel Reinforced Concrete composite columns. The Thirty-First KKHTCNN Symposium on Civil Engineering. November 22-24, 2018, Kyoto,Japan.

4. Liew JYR, Lai BL.Design of concrete encased steel composite columns using high strength materials. 9th International Conference on Steel and Aluminium Structures (ICSAS19) Bradford, UK, 3-5, July, 2019. (Keynote paper)

5. Li S, Lai BL, Wang Y, Liew JYR, Du Y. Residual strength of fibre-reinforced ultra-high-strength concrete (UHSC) exposed to elevated temperatures. The Thirtieth KKHTCNN Symposium on Civil Engineering. November 2-4, 2017, Taiwan.

受邀报告

1. 2nd International Symposium on Advances in Steel & Concrete Structures: “BC4:2021: Design Guide for Composite Columns using High Strength Materials” 16-Apr-2021, Singapore.

2. 1st International Symposium on Advances in Steel & Concrete Structures: Design of Concrete Encased Steel Composite Columns Using High Strength Materials. 10-Jan-2020, Singapore.

3. 河海大学土木与交通学院学术报告会之一百零五：高强钢与高强混凝土在组合结构中的性能研究及设计应用.15-Oct-2019，南京。

专利、软件著作权

荣誉和奖励

Prestigious Professor Lee Seng Lip Medal and Prize (2021) (新加坡国立大学土木专业博士每年仅一人获奖)
2020年美国混凝土协会新加坡分会项目竞赛金奖ACI-SC annual project competition 2020-Open category: Gold Award (2020)
国家奖学金 (2013)

指导学生