| 【近三年代表性论文】 [1] Jin Wang, Mingliang Zhu, Jiahao Cao, Jiamin Guo, Zhiwei Miao. A physics-informed neural network framework integrating singular value decomposition for actuator placement optimization of cable dome. Advances in Engineering Software, 2026, 213: 104092. [2] 曹江, 朱明亮, 曹家豪, 潘宁, 于相平, 郭佳民. 厦门白鹭体育场索夹抗滑移性能试验与有限元分析, 空间结构, 2026.
[3] 朱明亮, 尉杨瑞, 王进, 郭佳民. 数据驱动的树状结构智能找形方法研究, 工程力学, 2026: 1-16. [4] Jiang Cao, Mingliang Zhu, Jin Wang, Zhenhua Wang. Actuator Placement in Cable-Strut Structures via Localized SVD and Multi-Objective Optimization. KSCE Journal of Civil Engineering, 2025: 100501. [5] Shuhui Huang, Die Hu, Ze Yang, Mingliang Zhu, Tong Guo, Zhiwei Shan, Wei Chen, Daniel Ting-Wee Looi, R. K. L. Su. An innovative two-stage damage detection method for space latticed structures, Structures, 81, 2025, 110225. [6] Yun Xu, Mingliang Zhu, Shichang Zhang. Research on static performance of Mortise-Tenon connection for modular steel construction. International Journal of Civil Engineering, 2025: 1-22. [7] Jiang Cao, Mingliang Zhu, Jin Wang, Shilin Dong. Prestress multi-objective optimization method of the large opening cable dome with rigid inner ring. International Journal of Space Structures, 2025: 09560599251369462. [8] Jin Wang, Mingliang Zhu, Zhiwei Miao.Two-stage physics-informed deep neural networks framework for form-finding of tensegrity structures. Computer-Aided Design, 2025, 103898. [9] Mingliang Zhu, Zeyun Jin, Biao Yu, Yafei Qin. Experimental and numerical studies on mechanical properties of high-strength steel tubular disk-lock scaffold. KSCE Journal of Civil Engineering, 2025: 100292. [10] Jin Wang, Mingliang Zhu, Zeyun Jin. Efficient prestress optimization of suspen-dome structures using NSGA-III and machine learning-based surrogate models. International Journal of Advanced Steel Construction, 2025. [11] Mingliang Zhu, Jin Wang, Jiamin Guo. Physics-informed neural networks for displacement control of cable domes. Structures, 2025, 73: 108522. [12] Mingliang Zhu, Jin Wang, Xiangchen Hu, Shilin Dong. Machine learning-based multi-objective prestress optimization framework of suspend dome structure and case study. Engineering Structures, 2025, 322: 118987. [13] Mingliang Zhu, Xiangchen Hu, Jin Wang, Jiamin Guo. A machine learning-based force-finding method for suspend dome structures and case study. Journal of Constructional Steel Research, 2025, 226: 109253. [14] Mingliang Zhu, Jin Wang, Jiamin Guo. Physics-informed radial basis networks for force finding of cable domes. Thin-Walled Structures, 2025, 206: 112675. [15] Yutao He , Jiamin Guo , Huan Ping, Mingliang Zhu, Sujith Mangalathu. A robust force-finding framework for tensegrity structures using gradient-boosting decision trees and Latin hypercube sampling. Structures. Elsevier, 2025, 76: 108863. [16] Yifan Peng, Mingliang Zhu, Xiangchen Hu. Experimental investigation of aluminum-timber connections with inclined self-tapping screws. Advances in Structural Engineering. 2024: 13694332251319098. [17] Mingliang Zhu, Wei Xu, Weinan Ma. A novel prestress design method for cable-strut structures with Grey Wolf-Fruit Fly hybrid optimization algorithm.Structures, 2024, 67, 106932. [18] Yutao He, Jiamin Guo, Yu Zhao, Mingliang Zhu, Zhiyu Jiang. Prestress analysis and geometry optimization for conical cable domes with zero Gaussian curvature. Thin-Walled Structures, 2024, 196, 111555. [19] Yutao He, Jiamin Guo, Huan Ping, Mingliang Zhu, Weigang Chen, Guangen Zhou. Boosting tree with bootstrap technique for pre-stress design in cable dome structures. Thin-Walled Structures, 2024, 112611. [20] Yifan Liu, Zhiwei Miao, Lucas Hogan, Mingliang Zhu, Yong Lu. A new prediction model for residual deformation capacity of corroded steel bars. Engineering Structures, 2024, 318, 118739. [21] Yifan Liu, Zhiwei Miao, Hao Yuan, Xiangdong Geng, Lucas Hogan, Mingliang Zhu. Experimental study of tensile behaviour of rebars with simulated pitting corrosion. Construction and Building Materials, 2024, 445, 137952. [22] Yu Lin, Dongzhi Guan, Zhengxing Guo, Mingliang Zhu, Hui Yang. Seismic performance on PSPC beam-Concrete encased CFST column frame with a built-in reduced beam section,Case Studies in Construction Materials, 2024, 21, e03966. [23] 朱明亮, 张步宽, 夏杰, 郭正兴. 杭州世纪中心西天窗索夹抗滑移试验研究. 建筑结构,2024,54(7): 107-112. [24] Mingliang Zhu, Weinan Ma, Yifan Peng, et al. Improved fruit-fly optimization algorithm for force-finding of cable dome structures. Structures, 2023. [25] Mingliang Zhu, Yifan Peng, Weinan Ma, et al. Artificial neural network-aided force finding of cable dome structures with diverse integral self-stress states-framework and case study. Engineering Structures, 2023,285. [26] 朱明亮, 彭逸凡, 曹江, 于相平, 郭正兴. 厦门新体育场车辐式索桁结构预应力施工全过程分析. 钢结构(中英文), 2023, 38(5), 1-21. [27] 廖春生, 陈维, 朱明亮, 等. 第三代核电站超大吨位预应力束应力均布关键技术. 原子能科学技术, 2023, 57(S1): 129-138.
【专著】 [1] 朱明亮,罗斌,郭正兴. 苏州奥林匹克体育中心索网结构分析与施工. 北京:建筑工业出版社,2018. [2] 朱明亮. 新型弦支叉筒结构体系研究. 南京:东南大学出版社,2015. |
