邱志坚 助理教授

银河贵宾汇GALAXY土木工程系 岩土工程方向

电子邮件：ZhijianQiu@xmu.edu.cn

教育背景：2015.9-2020.12加州大学圣地亚哥分校博士

主要研究方向：砂土液化本构、土-结相互作用、桥梁结构韧性评估

讲授课程：建筑结构

工作经历：

2021年8月-至今，银河贵宾汇GALAXY助理教授

2021年1月-2021年7月，加州大学圣地亚哥分校博士后

荣誉奖励：

2015-2017，Dr. Huang Memorial Scholarship Fund, University of California San Diego USA

2015，福建省优秀硕士论文

科研项目：

1. 考虑砂土液化大变形的桩基桥梁抗震性能与地震风险分析（国家自然科学基金青年项目，52208371；2023-01至2025-12）；主持（在研）

2. 液化侧扩流场地桩基桥梁破坏机理与数值仿真分析（福建省自然科学基金青年项目，2022J05002；2022-08至2025-08）；主持（在研）

3. 高土石坝深厚可液化坝基碎石桩加固抗震性能评价（软弱土与环境土工教育部重点实验室，浙江大学，2022P05；2022-08至2025-08）；主持（在研）

4. 砂土液化分析（Soil Liquefaction），美国加州交通运输部(Caltrans, No. 65A0548，项目主持人：Ahmed Elgamal教授；2015至2018）；参与

5. Seismic Risk Assessment of Wind Turbine Towers in Zafarana Wind Farm Egypt（美国国家自然科学基金，U.S. NSF award OISE-1445712，项目主持人：Ahmed Elgamal教授；2015至2019）；参与

6. Meshfree large-strain framework for seismic response of ground-structural systems（美国加州大学伯克利太平洋地震科学研究中心，PEER TSRP，项目主持人：Ahmed Elgamal教授；2020-2022）；参与

期刊论文

[1] Qiu, Z. (邱志坚), Prabhakaran, A., Zhou, YG, and Elgamal, A. (2023) A practical three-dimensional plasticity model for cyclic degradation of soil in earthquake loading applications. Earthquake Engineering & Structural Dynamics. (Accepted)

[2] Qiu, Z. (邱志坚), Prabhakaran, A., Su, L. and Zheng, Y. (2023). Performance-based seismic resilience and sustainability assessment of coastal RC bridges in aggressive marine environments. Ocean Engineering, 279, p.114547.

[3] Qiu, Z. (邱志坚), Prabhakaran, A. and Elgamal, A. (2023). A three-dimensional multi-surface plasticity soil model for seismically-induced liquefaction and earthquake loading applications. Acta Geotechnica, pp.1-24.

[4] Qiu, Z. (邱志坚), Yu, Z., Su, L., Prabhakaran, A., Elgamal, A. and Wang, X. (2023). Longitudinal seismic fragility assessment of an integral bridge-ground system in liquefaction-induced lateral spreads. Soil Dynamics and Earthquake Engineering, 168, 107838.

[5] Gu, Q., Huang, C., Qiu, Z. (邱志坚), Wang, T., Li, Q. and Zhai, C. (2023). A novel method for seismic resilience assessment of urban hospital network systems based on a real-time simulation model. International Journal of Structural Stability and Dynamics. (Accepted)

[6] Prabhakaran, A., Kim, K., Jahed Orang, M., Qiu, Z. (邱志坚), Ebeido, A., Zayed, M., Boushehri, R., Motamed, R., Elgamal, A. and Frazao, C. (2023). Polymer Injection and Liquefaction-Induced Foundation Settlement Mitigation: A Shake Table Testing Investigation. Journal of Geotechnical and Geoenvironmental Engineering, 149(8), p.04023054.

[7] Wu, Q., Huang, L., Zhao, F., Qiu, Z. (邱志坚) and Zheng, Y. (2023). Liquefaction behavior of inherently anisotropic sand under cyclic simple shear: Insights from three-dimensional DEM simulations. Soil Dynamics and Earthquake Engineering, 171, p.107947.

[8] Qiu, Z. (邱志坚), Lu, J., Ebeido, A., Elgamal, A., Uang, C.M., Alameddine, F. and Martin, G. (2022). Bridge in Narrow Waterway: Seismic Response and Liquefaction-Induced Deformations. Journal of Geotechnical and Geoenvironmental Engineering, 148(8), 04022064.

[9] Qiu, Z. (邱志坚), Ebeido, A., Almutairi, A., Lu, J., Elgamal, A., Shing, P.B. and Martin, G. (2020) Aspects of bridge-ground seismic response and liquefaction-induced deformations. Earthquake Engineering & Structural Dynamics, 49(4), 375-393.

[10] Qiu, Z. (邱志坚) and Elgamal, A. (2020). Three-dimensional modeling of strain softening soil response for seismic loading applications. Journal of Geotechnical and Geoenvironmental Engineering, 146(7), 04020053.

[11] Qiu, Z. (邱志坚) and Elgamal, A. Numerical simulations of LEAP centrifuge tests for seismic response of liquefiable sloping ground. (2020) Soil Dynamics and Earthquake Engineering, 139, 106378.

[12] Qiu, Z. (邱志坚), Lu, J., Elgamal, A., Su, L., Wang, N. and Almutairi, A. (2019). OpenSees Three-dimensional computational modeling of ground-structure systems and liquefaction scenarios. Computer Modeling in Engineering & Sciences, 120(3), 629-656.

[13] Su, L., Zhang, X., Xie, L., Zhang, P., Zhang, A., Qiu, Z. (邱志坚) and Ling, X. (2022). Response characteristic of crane-wharf interaction system: Numerical simulation and global sensitivity analysis. Ocean Engineering, 266, 113011.

[14] Zayed, M., Ebeido, A., Prabhakaran, A., Qiu, Z. (邱志坚) and Elgamal, A. (2021) Asymmetric input motion for accumulation of lateral ground deformation in laminar container shake table testing. Canadian Geotechnical Journal, 58(2), 210-223.

[15] Zayed, M., Ebeido, A., Prabhakaran, A., Kim, K. Qiu, Z. (邱志坚), and Elgamal, A. Shake table testing: a high-resolution vertical accelerometer array for tracking shear wave velocity. Geotechnical Testing Journal, 2020, 44(4).

[16] Li, Y., Huang, S., Lin, C., Gu, Q. and Qiu, Z. (邱志坚). (2017) Response sensitivity analysis for plastic plane problems based on direct differentiation method. Computers & Structures, 182, 392-403.

[17] Gao, Y., Gu, Q., Qiu, Z. (邱志坚) and Wang, J. (2016). Seismic response sensitivity analysis of coupled dam-reservoir-foundation systems. Journal of Engineering Mechanics, 142(10), 04016070.

[18] Gu, Q., Qiu, Z. (邱志坚) and Huang, S. (2015) A modified multi-yield-surface plasticity model: Sequential closest point projection method. Computers and Geotechnics, 69, 378-395.

[19] 周林禄, 苏雷, 邱志坚, 等. 基于OpenSees的砂土本构模型对比研究.地震工程学报, 2022, 44(01): 128-135.

[20] 古泉, 俞至权, 邱志坚. 考虑碎石桩加固的液化场地桥梁地震风险分析. 湖南大学学报(自然科学版), 2022, 49(07):178-185.

[21] 邱志坚, 古泉. 三维混凝土Cap模型在OpenSees中的实现. 防灾减灾工程学报, 2015, 35(02): 236-241.

[22] 古泉, 曾志弘, 邱志坚， 等. 土结构相互作用体系动力响应的敏感性分析. 地下空间与工程学报, 2015, 11(S1): 80-86.