简历

楼铁炯，博士，研究员/博士生导师，玛丽居里学者。1995年宁波大学土木工程系本科毕业，获工学学士学位；1995至1999年在绍兴从事4年工程管理工作；2002和2005年浙江大学力学系硕士和博士研究生毕业，分别获工学硕士和博士学位；之后在浙江大学从事博士后研究，2007年具有副研究员任职资格；2008年起先后在意大利都灵理工大学和葡萄牙科英布拉大学从事科研工作；2016年底入职武汉理工大学道路桥梁与结构工程湖北省重点实验室。

研究领域

Ø  钢筋及预应力混凝土结构

Ø  钢-混凝土组合结构

Ø  FRP复合材料结构

Ø  高强及高性能混凝土

Ø  结构有限元分析

基金项目

Ø  Grant No. 751921, Marie Sklodowska-Curie Individual Fellowship, 01/11/2017~31/10/2019, 19.5万欧元, 主持.

Ø  Grant No. SFRH/BPD/66453/2009, FCT (Portuguese Foundation for Science and Technology) Fellowship, 01/09/2010~31/08/2016, 12万欧元, 主持.

Ø  Fellowship for foreign researchers, co-funded by Regione Piemonte and Politecnico di Torino (Italy), 01/09/2008~31/08/2010, 6.4万欧元, 主持.

Ø  项目编号: 20060390344, “体外预应力混凝土连续梁受力性能及设计理论研究”, 中国博士后科学基金(一等), 03/2006~06/2007, 5万元, 主持.

近年来代表性论文

1.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2017). Effect of linear transformation on nonlinear behavior of continuous prestressed beams with external FRP cables. Engineering Structures, 147: 410-424.

2.       T.J. Lou, M.Y. Liu, S.M.R. Lopes, A.V. Lopes. (2017). Effect of bond on flexure of concrete beams prestressed with FRP tendons. Composite Structures, 173: 168-176.

3.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2017). Effect of relative stiffness on moment redistribution in reinforced high-strength concrete beams. Magazine of Concrete Research, 69(14): 716-727.

4.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2016). Response of continuous concrete beams internally prestressed with unbonded FRP and steel tendons. Composite Structures, 154: 92-105.

5.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2016). Time-dependent behavior of concrete beams prestressed with bonded AFRP tendons. Composites Part B: Engineering, 97: 1-8.

6.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2016). Numerical modeling of externally prestressed steel-concrete composite beams. Journal of Constructional Steel Research, 121: 229-236.

7.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2015). FE analysis of short- and long-term behavior of simply supported slender prestressed concrete columns under eccentric end axial loads causing uniaxial bending. Engineering Structures, 85: 52-62.

8.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2015). A comparative study of continuous beams prestressed with bonded FRP and steel tendons. Composite Structures, 124: 100-110.

9.       T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2015). Neutral axis depth and moment redistribution in FRP and steel reinforced concrete continuous beams. Composites Part B: Engineering, 70: 44-52.

10.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2015). Redistribution of moments in reinforced high-strength concrete beams with and without confinement. Structural Engineering and Mechanics, 55(2): 379-398.

11.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2015). Numerical modelling of nonlinear behaviour of prestressed concrete continuous beams. Computers and Concrete, 15(3): 373-389.

12.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2015). Interaction between time-dependent and second-order effects of externally posttensioned members. ASCE Journal of Bridge Engineering, 20(11), 06015003.

13.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2014). Evaluation of moment redistribution in normal-strength and high-strength reinforced concrete beams. ASCE Journal of Structural Engineering, 14(10), 04014072.

14.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2014). Factors affecting moment redistribution at ultimate in continuous beams prestressed with external CFRP tendons. Composites Part B: Engineering, 66: 136-146.

15.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2014). Flexure of continuous HSC beams with external CFRP tendons: Effects of fibre elastic modulus and steel ratio. Composite Structures, 116: 29-37.

16.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2014). A finite element model to simulate long-term behavior of prestressed concrete girders. Finite Elements in Analysis and Design, 81: 48-56.

17.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2014). External CFRP tendon members: Secondary reactions and moment redistribution. Composites Part B: Engineering, 57: 250-261.

18.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2014). FE modeling of inelastic behavior of reinforced high-strength concrete continuous beams. Structural Engineering and Mechanics, 49(3): 373-393.

19.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2013). Flexural response of continuous concrete beams prestressed with external tendons. ASCE Journal of Bridge Engineering, 18(6): 525-537.

20.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2013). Nonlinear and time-dependent analysis of continuous unbonded prestressed concrete beams. Computers & Structures, 119: 166-176.

21.   T.J. Lou, S.M.R. Lopes, A.V. Lopes. (2012). Numerical analysis of behaviour of concrete beams with external FRP tendons. Construction and Building Materials, 35: 970-978.

22.   T.J. Lou, A.V. Lopes, S.M.R. Lopes. (2012). Influence of span-depth ratio on behavior of externally prestressed concrete beams. ACI Structural Journal, 109(5): 687-695.