教育简历

2014.9-2019.7中国科学院大学声学研究所 理学博士

2010.9-2014.6昆明理工大学材料科学与工程学院 学士

工作履历

2019.7—至今 2138cc太阳集团

研究方向

超声无损检测、智能传感器、超声传播与成像、基于深度学习的结构健康监测

学术兼职

检测声学学会委员、声学学会会员

课程教学

本科生教学：传感与测试技术、传感与测试技术课程设计、智能传感材料与结构

研究生教学：有限元方法在无损检测中的应用

科研项目

(1)国家自然科学基金委员会,面上项目,磁致伸缩机制下水平剪切导波的谐波激励机理及应力检测研究,2025-01-01至2028-12-31,在研,主持

(2)国家自然科学基金委员会,重点项目,大厚度构件沿厚度方向残余应力梯度超声表面波偏振层析检测方法, 2023-01-01至2027-12-31,在研,参与

(3)国家自然科学基金委员会,青年科学基金项目,金属板中疲劳裂纹的兰姆波逆时偏移成像方法研究,2021-01-01至2023-12-31,结题,主持

(4)中国博士后科学基金面上项目,液层负载薄板裂纹Lamb波逆时偏移成像及其散射机理研究,2019-09至2022-04,结题,主持

(5)北京市博士后科学基金，薄板中缺陷的兰姆波逆时偏移成像方法研究，主持，2020.6-2021.10

荣誉和获奖

1.2022北京市优秀毕业设计指导教师，北京市

2.中国声学学会2022-2024青年人才托举工程，中国声学学会

3.2020年优秀博士学位论文提名奖-《时间反转和逆时偏移混合法用于分层介质中目标检测定位和薄板中裂纹弯曲波成像》，中国声学学会

代表性研究成果

[1]Xiang Gao, Qunhao Qi, Mezahuo Qumu,et al. An arc-shaped magnetostrictive guided wave array transducer and rotational synthetic aperture focusing technology imaging method. Measurement, 2026: 119254.

[2]Wenbo Cao, Bin Wu, Ren Liu,Xiang Gao*and Xiucheng Liu*. Stress-controlled magnetoacoustic conversion efficiency of SH waves: theoretical analysis and experimental validation. Journal of Sound and Vibration, 2026: 119613.

[3]Wenbo Cao, Bin Wu, Yuan Yuan, Zhenghong Wang,Xiang Gao*and Xiucheng Liu*. Non-destructive characterization of mechanical properties using magnetostrictive magnetoacoustic conversion: Theory and experiment. Ultrasonics, 2026: 107900.

[4]Huan Wang, Bin Wu,Xiang Gao*, et al. A new theoretical model for high-order harmonics of SH0 mode ultrasonic guided waves based on magnetostrictive mechanism, Ultrasonics, 2025, 145:107480.

[5]Jingpin Jiao, Zhiyan Qiao,Xiang Gao*, et al，Establishment and Application of a Semianalytical Model of Ultrasonic Power Transfer，IEEE/ASME Transactions on Mechatronics,2025,30(1): 215-225.

[6]Xiang Gao,Yuncheng Zhang, Yanxun Xiang, et al. An Interface Reconstruction Method Based on the Physics-Informed Neural Network: Application to Ultrasonic Array Imaging, IEEE Transactions on Instrumentation and Measurement, 2025, 74, 1-8.

[7]Ren Liu, Bin Wu,Xiang Gao*,et al. Performance Optimization of Crimped SH-Guided Wave Magnetostrictive Patch Transducers for High-Temperature Structural Detection. IEEE Transactions on Instrumentation and Measurement, 2025,74: 1-12.

[8]Ren Liu,Xiang Gao*, Bin Wu,et al. A novel defect recognition method of ultrasonic guided wave monitoring signals based on optical flow estimation. Structural Health Monitoring, 2025: 225310571.

[9]Ren Liu, Bin Wu,XiangGao*,et al.Development of a Crimped Torsional Guided Wave Magnetostrictive Transducer (MsT) for Structural Monitoring of High-Temperature Pipelines,IEEE Sensors Journal,2025,25(13), 23793-23802.

[10]Xiang Gao,Boran Zhang, Qianyu Cheng, et al. Long-term monitoring experiment and data analysis of complex pipeline based on magnetostrictive guided wave cloud monitoring system, Measurement, 2025, 254: 117897.

[11]Tong Xu, Wu Bin,XiangGao*, An efficient communication method of frequency division multiplexing in plate structures based on ultrasonic Lamb waves,INSIGHT, 2025,67(6):326-334.

[12]Wang Shuyu , Wu Bin ,XiangGao *, et al. Analysis and experimentation of lamb wave transmission characteristics in the stiffened plates. Nondestructive Testing and Evaluation,2024, 1–22.

[13]刘韧,吴斌,高翔*,等.管道缺陷和特征的多点多频超声导波检测方法,应用声学,2024,1-11.

[14]徐统,吴斌,高翔*,等.基于兰姆波的平板频分复用数据传输系统研究,应用声学, 2024,43(06):1283-1296.

[15]王婉儿,郑相锋,张新梦,高翔*,等.基于高纯石墨杆的纵向模态超声导波测温方法研究.仪器仪表学报,2024, 45(10):263-271.(EI)

[16]Huan Wang, Bin Wu,Xiang Gao*, et al.Ultrasonic guided wave defect detection method for tank bottom plate based on SH0 mode multichannel magnetostrictive sensor.Measurement,2023,223,113790.

[17]Xiafei Li, Bin Wu,Xiang Gao*, et al. Ultrasonic SH guided wave detection of the defects of switch rails with 3D finite element method. Measurement, 2023, 220: 113325.

[18]Xiang Gao*, Ye Tian, Jingpin Jiao, et al. An accurate measurement method of lamb wave phase velocity based on clustering algorithms. Measurement, 2022, 195: 111178.

[19]Xiang Gao, Ye Tian, Jingpin Jiao, et al. Non-destructive measurements of thickness and elastic constants of plate structures based on Lamb waves and particle swarm optimization. Measurement 2022;204:111981.

[20]李立,焦敬品*,高翔*,等.黏接界面性能劣化的非线性超声检测研究进展.科学通报, 2022, 67: 621–629

[21]Xiang Gao,Xiafei Li, Hongjuan Yang, et al. Target-detection and localization in multilayered media through mixed TR–RTM method. Inverse Problems in Science and Engineering, 2021, 29(12): 1811–1820.

[22]Xiang Gao, Jian Li, Jun Ma, et al. Experimental investigation of the detection and location of a target in layered media by using the TR–RTM mixed method. SCIENCE CHINA Physics, Mechanics & Astronomy 2019, 62(3), 034311.

[23]Xiang Gao, Jian Li, Jun Ma, et al. Reverse-time-migration imaging for a crack in a thin plate by dispersed flexural waves. AIP Advances, 2018, 8(12): 125302.

[24]高翔,李鉴,师芳芳,等.时间反转和逆时偏移混合法用于层状介质中目标检测和定位的声场分析.声学学报2018;43(4):655-664.

[25]高翔,李鉴,马军,师芳芳.时间反转和逆时偏移混合法中参数改变对目标检测和定位的影响.应用声学.2018,37 (1):159-167.

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