一、科研项目

（1）国家自然科学基金面上项目，基于非线性兰姆波的水下闸门面板整体检测理论与方法，58万，2021-01至2024-12

（2）国家自然科学基金青年项目，基于应力波的智能骨料相控阵列与混凝土结构健康监测方法研究，21万，2017-01至2019-12

（3）国家重点研发计划子课题，城市桥隧群天-空-地区域智能监测与群智感知技术及全网优化策略，96万，2023-11至2026-11

（4）国家重点研发计划子课题，高寒区混凝土坝高质量建设和土坝运行安全保障关键技术集成与示范应用，5万，2019-7至2021-6

（5）福建高速科技项目，跨海桥梁超深水超大直径桩基础及桥墩检测与监测关键技术研究，163万，2022-08至2024-12

（6）江苏省水利科技项目，基于导波的挡潮闸门损伤成像技术研究，30万，2022-08至2024-07

（7）中国博士后基金面上项目，混凝土中的应力波束成形方法及微小损伤精确定位研究，5万，2017-11至2018-12

（8）国家重点研发计划，大型桥隧结构灾后快速检测评估技术与装备研发，2019YFC1511100，3633万，2020-01至2023-12

（9）国家重点研发计划，重大水利工程大坝深水检测及突发事件监测预警与应急处置，2016YFC0401600，4200万，2016-07至2020-06

（10）国家自然科学基金重点项目，特高坝与近坝山体异常变形驱动机制及安全防控理论和方法，303万，2018-01至2022-12

（11）国家自然科学基金面上项目，变化环境荷载作用下高拱坝空间变形监控模型与性态诊断方法研究，60万，2019-01至2022-12

（12）美国交通部USDOT，Collision Protection and Monitoring of Highway Bridges in Cold Regions，$20.1万，2010-12

（13）美国宇航局NASA，Structural Health Monitoring with Fiber Bragg Grating and Piezo Arrays，$19万，2010-01

（14）美国交通部USDOT，Accelerated Degradation and Durability of Concrete in Cold Climates，$15万，2010-01

（15）美国交通部USDOT，Enhanced Performance of Recycled Aggregate Concrete with Atomic Polymer Technology，$5.49万，2009-04

（16）波音公司Boeing，Support for Buckling and Post buckling Analysis with Plate linked Method, 2-D Plate Fracture, and Stability of Curved Beams，$3.8万，2011-08

二、论文

(1) Wang ZJ, Wang K, Han QQ, Ni JY, Wu ZS*. Crack imaging of underwater concrete components using interfacial waves and transducer array, Mechanical Systems and Signal Processing 2024, 224: 111998

(2) Wang ZJ, Peng Z, Yan YW, Liu KZ, Wu ZS*. Field test of internal visualization of deep-water pile foundation using ultrasonic waves. Structural Health Monitoring 2024, 14

(3) Wang ZJ, Yan YW, Gao ZH, Shi BK*. Inclined Crack Quantification of Plate-Like Structures Based on Circular Sensor Array and Lamb Waves. Acoustical Physics 2024

(4) Wang ZJ, Yan YW, Wang K, Gao ZH, Wu ZS*. Imaging of Closed Cracks by Water-Coupled Sensor Array Based on Nonlinear Lamb Waves. Journal of Nondestructive Evaluation 2024, 43(2)

(5) Wang ZJ, Zou YF, Wang K, Peng ZK, Fan P, Wu ZS*. Ultrasonic assessment of compressive strength of underwater concrete considering various mix parameters, Nondestructive Testing and Evaluation 2024, May 29.

(6) Wang ZJ, Yan YW, Wang K, Gao ZH, Wu ZS*, Imaging of closed cracks by water-coupled sensor array based on nonlinear Lamb waves, Journal of Nondestructive Evaluation, 2024, 126(2): 46

(7) Wang ZJ, Shi BK*, Fang C. Characterization of Guided Wave Dispersion in Isotropic Tubes Based on Damping Finite Element Boundaries. INSIGHT 2023, 65(1).

(8) Wang ZJ, Gao ZH, Shi BK*, Chen BH. Imaging of Multiple Cracks in Thin Plates using Circular Sensor Array Based on Lamb Waves, Acoustical Physics, 2023, 69 (4): 588-598.

(9) Wang ZJ, Liu JX, Fang C, Wang K, Wang LB, Wu ZS*. Nondestructive measurements of elastic constants of thin rods based on guided waves. Mechanical Systems and Signal Processing 2022, 170: 108842.

(10) Wang ZJ, Fang C, Wang K, Wu ZS*. Guided wave propagation along surface of vertical solid partially submerged in horizontal liquid layer. Ultrasonics 2023, 129: 106893.

(11) Wei L, Wang ZJ*, Cao MS, Fu RH. Concrete strength monitoring based on the variation of ultrasonic waveform acquired by piezoelectric aggregates, Structural Engineering and Mechanics, 2020, 76: 591-598

(12) Wang Z J, Wei L, Cao MS*. Damage Quantification with Embedded Piezoelectric Aggregates Based on Wavelet Packet Energy Analysis. Sensors 2019, 19(2)

(13) Shi BK, Wang ZJ*, Jing HQ. Baseline-free delamination identification for composite cantilever beams based on high-order modal parameters in approximate waveform capacity dimension, Journal of Vibration and Acoustics, 2019, 141: 061015

(14) Jia HL, Wang ZJ*, Cao MS, Li J. Damage identification in cantilever beams based on high-order frequency response function with improved sensitivity, Journal of Testing and Evaluation, 2019, 48(5)

(15) Wang ZJ*, Qiao PZ, Shi BK. Effective time-frequency characterization of Lamb wave dispersion in plate-like structures with non-reflecting boundaries. Smart Structures and Systems 2018, 21 (2): p. 195-205.

(16) Wang ZJ*, Qiao PZ, Shi BK. A comprehensive study on active Lamb wave-based damage identification for plate-type structures. Smart Structures and Systems 2017, 20 (6): p. 759-767.

(17) Wang ZJ, Qiao PZ*. Backward wave separation method in a single transmitter and multi-receiver sensor array for improved damage identification of two-dimensional structures. International Journal of Damage Mechanics 2017, 26 (2): p. 229-250.

(18) Wang ZJ, Qiao PZ*, Shi BK. Application of soft-thresholding on the decomposed Lamb wave signals for damage detection of plate-like structures. Measurement 2016, 88: p. 417-427.

(19) Zijian Wang; Zhangkai Peng; Yuwei Yan; Juncheng Zeng; Zhishen Wu; Computed Tomography of Layered Defects in Large-Diameter Pile Foundation Using Transmission of Hybrid Ultrasonic Modes, Structures, 2025, 74

(20) Zijian Wang; Yunfei Zou; Kui Wang; Yuze Tao; Zhishen Wu; Crack detection of submerged concrete structures based on mode conversion of guided waves, Structures, 2025, 71: 108110

(21) Yunfei Zou; Zijian Wang; Zhishen Wu; Ultrasonic strength evaluation of underwater heterogeneous concrete using random forest model constrained by physical laws, Case Studies in Construction Materials, 2025, 22

三、其他

（1）王子健（1/10），水下构筑物超声检测关键技术及其应用，中国大坝工程学会科技进步二等奖，2023（科研奖励）

（2）王子健(2/12);复杂水下环境建筑物病害多模态感知关键技术及应用,长江科技奖，二等奖，2024 (科研奖励)

（3）王子健；吴智深；王奎;一种细杆杨氏模量及泊松比的无损检测装置及方法，中国，2022-1-6，

（4）王子健；吴智深；一种瑞利波信号的高效检测方法，2022-04-08，中国，CN202110591291.6（授权专利）

（5）王子健；一种水工管涵中机器人的定位方法，2024-04-21，中国，ZL202010795361.5（授权专利）

（6）王子健；一种水下闸门的非线性波检测方法，2024-05-29，中国，ZL202010795436.X（授权专利）