1. 代表性学术论文:
[1] Chuang Wang, Jiawang Zhan*, Quansheng Sun, Xinxiang Xu, Huitong Xu. Lightweight real-time assessment of bridge substructures based on joint load-parameter-response estimation and output-only measurements [J]. Engineering Structures, 2026, 348: 121764.
[2] Chuang Wang, Jiawang Zhan*, Zhihang Wang, Xinxiang Xu, Yujie Wang, Zhen Ni, Fei Li. A non-contact methodology for disengagement monitoring of high-speed railway bridge bearings based on bearing to beam displacement relation under round-trip trains [J]. Structural Control and Health Monitoring, 2026, 7687484.
[3] 王闯, 战家旺*, 王志航, 许鑫祥, 王昱杰. 基于列车激励下支座-梁位移比的铁路简支梁桥支座状态评估方法[J]. 土木工程学报, 2026, 59(2): 75-85.
[4] 王闯, 战家旺*, 孙全胜. 基于荷载-参数-响应联合估计的桥梁下部结构轻量化监测方法[J/OL]. 中国公路学报, 1-18 [2025-12-27].
[5] Chuang Wang, Jiawang Zhan*, Nan Zhang, Yujie Wang, Xinxiang Xu, Zhihang Wang, Zhen Ni. Drive-by spatial offset detection for high-speed railway bridges based on fusion analysis of multi-source data from comprehensive inspection train [J]. Railway Engineering Science, 2026, 34(1): 128-148.
[6] Chuang Wang, Jiawang Zhan*, Yujie Wang, Xinxiang Xu, Zhihang Wang. Condition monitoring and quantitative evaluation of railway bridge substructures using vehicle-induced vibration responses by sparse measurement [J]. Structural Control and Health Monitoring, 2024, 3271106.
[7] Chuang Wang, Jianlei Liu, Jiawang Zhan*, Fei Zhang, Yujie Wang. A rapid evaluation method for vertical condition of bridge substructures using Bayesian system identification and output-only measurements [J]. ASCE Journal of Bridge Engineering, 2024, 29(2): 04023110.
[8] Chuang Wang, Jiawang Zhan*, Yujie Wang, Fei Zhang, Dajie Pan. A drive-by methodology for rapid inspection of HSR bridge substructures using dynamic responses of passing marshaling trains [J]. International Journal of Structural Stability and Dynamics, 2024, 24(6): 2450068.
[9] Jiawang Zhan*, Chuang Wang, Yuzhi Yan, Lu Deng, Wenjun Zhu, Jianlei Liu. Modal analysis and condition evaluation of substructures of simply-supported high-speed railway bridge based on a simplified model [J]. ASCE Journal of Bridge Engineering, 2022, 27(8): 04022058.
[10] Jiawang Zhan, Chuang Wang*, Zhiheng Fang. Condition assessment of joints in steel truss bridges using a probabilistic neural network and finite element model updating [J]. Sustainability, 2021, 13(3): 1474.
2. 专利:
[1] 铁路简支梁桥下部结构状态监测方法及系统: ZL202410499353.4.
[2] 一种基于非接触式测量的桥梁支座服役状态评估方法: ZL202411148890.0.
[3] 一种新型抗侧力密网式钢片柱: ZL201721782551.3.
3. 专著:
[1] 战家旺, 王闯. 铁路桥梁下部结构服役状态评估理论及应用[M]. 北京: 清华大学出版社, 2026.
4. 标准:
[1] 寒区聚氨酯水泥预应力钢丝绳抗弯加固桥梁技术规程: DB 23/T 3970-2025 [S]. 黑龙江省地方标准, 2025, 参编.
