刘彧 讲师

发布时间:2023-02-08浏览次数:1359

姓名:

刘彧

职称:

讲师

主要研究领域:

钢结构抗火、组合结构抗火

E-mail:

liuyu651020@usst.edu.cn

所在单位:

上海理工大学9001cc金沙土木工程系

通讯地址:

上海市杨浦区军工路516200093

教育背景:

2017.09 – 2022.01

谢菲尔德大学

土木工程专业

博士

2014.09 – 2017.04

上海交通大学

土木工程专业

硕士

2010.09 – 2014.07

同济大学

土木工程专业

本科

科研项目:

[1]  国家自然科学基金青年基金项目火灾工况下延性节点在纯钢和钢混组合框架结构中性能的研究(52208489),2023.01 – 2025.12主持

[2]  上海市浦江人才计划项目火灾工况下梁端节点的延性对建筑结构抗火性能的影响(22PJ1411500),2022.10 – 2024.10,主持。

[3]  EPSRCDuctile Connections to Improve Structural Robustness in Fire2017.09 – 2022.01,参与。

[4]  国家自然科学基金项目,柔性充气操控臂(11272207, 51278299),2014.09 – 2017.04,参与。

荣誉奖励:

2022

上海市领军人才计划(海外)

 

2022

思学培养计划

上海理工大学

2019

Outstanding Paper Award

南洋理工大学

2017

CSC 奖学金

国家留学基金委

2017

上海交通大学优秀毕业生

上海交通大学

发表论文:

期刊论文

[1]

LIU, Y.*, HUANG, S.-S. & BURGESS, I. (2022). “Three-dimensional modelling of composite frames with ductile connections in fire” Structures, 36, 665-677.

[2]

LIU, Y.*, HUANG, S.-S. & BURGESS, I. (2021). “Fire performance of axially ductile connections in composite construction” Fire Safety Journal, 121, 103311.

[3]

LIU, Y.*, HUANG, S.-S. & BURGESS, I. (2021). “Ductile connection to improve the fire performance of bare-steel and composite frames” Journal of Structural Fire Engineering.

[4]

ZHANG, D.-X., LIU, Y.*, LIU, H.-L., FENG, Y.-Q., GUO, H.-B., HONG, Z.-L., CHEN, C. & ZHANG, Y. (2021). “Characterisation of damage evolution in plain weave SiC/SiC composites using in situ X-ray micro-Computed Tomography” Composite Structures, 275, 114447.  

[5]

LIU, Y.*, HUANG, S.-S. & BURGESS, I. (2020). “Performance of a novel ductile connection in steel-framed structures under fire conditions” Journal of Constructional Steel Research, 169, 106034.

[6]

LIU, Y.*, HUANG, S.-S. & BURGESS, I. (2020). “Component-based modelling of a novel ductile steel connection” Engineering Structures, 208, 110320.

[7]

LIU, Y.*, HUANG, S.-S. & BURGESS, I. (2019). “Investigation of a steel connection to accommodate ductility demand of beams in fire” Journal of Constructional Steel Research, 157, 182-197.

[8]

LIU, Y., ZHANG, D.-X., HU, J.-H., CHEN, W.-J., GAO, C.-J. & QIU, Z.-Y. (2019). “Design and structural analysis of an inflatable coated fabric manipulation arm” Thin-Walled Structures, 139, 310-20.

[9]

HU, J.-H., CHEN, W.-J., LIU, Y., ZHAO B., GAO, C.-J. & YANG, D.-Q. (2017). “Dynamic mechanical analysis of ethylene tetrafluoroethylene (ETFE) foils in use for transparent membrane buildings” Polymer Testing, 59.

[10]

HU, J.-H., CHEN, W.-J., LIU, Y., ZHAO B., YANG, D.-Q. & GE, B.-B. (2017). “Two-layer ETFE cushions integrated flexible photovoltaics: prototype development and thermal performance assessment” Energy & Buildings, 141.

[11]

刘彧, 张大旭, 陈务军, 何世赞, 邱振宇& 高成军. (2016). “柔性充气操控臂转动行为数值模拟与试上海交通大学学报, 50(12):1823-1830.

国际学术会议论文

[1]

LIU, Y., HUANG, S.-S. & BURGESS, I. Numerical investigation of a ductile connection to improve structural robustness in fire.  Proceedings of the 12th International Conference on Structures in Fire (SiF2022), 2022 Hong Kong, China. The Hong Kong Polytechnic University.

[2]

LIU, Y., HUANG, S.-S. & BURGESS, I. A numerical study on the structural performance of a ductile connection under fire conditions.  Proceedings of the 9th European Conference on Steel and Composite Structures, 2021 UK, Sheffield. The University of Sheffield.

[3]

LIU, Y., HUANG, S.-S. & BURGESS, I. Performance of ductile connections in 3-D composite frames under fire conditions.  Proceedings of the 7th Applications of Structural Fire Engineering (ASFE'21), 2021 Ljubljana. University of Ljubljana, 43-48.

[4]

LIU, Y., HUANG, S.-S. & BURGESS, I. Investigation of the performance of a novel ductile connection within bare-steel and composite frames in fire.  Proceedings of the 11th International Conference on Structures in Fire (SiF2020), 2020 Australia, Queensland. The University of Queensland, 662-672.

[5]

LIU, Y., HUANG, S.-S. & BURGESS, I. Ductile connections to improve structural robustness in fire.  Proceedings of the 6th Applications of Structural Fire Engineering Conference (ASFE'19), 2019 Singapore. Nanyang University of Technology.

国内学术会议论文

[1]

刘彧. 延性节点提升建筑结构在火灾中的性能. 第十一届全国结构抗火技术研讨会论文集, 2022.

[2]

刘彧, 陈务军, 张大旭. 波纹式充气管的力学性能研究. 第十六届全国现代结构工程学术研讨会论文集, 2016:1553- 1558.