赵高争,男,安徽阜阳市人,工学博士,硕士生导师。主要从事超声导波与激光超声无损检测的研究,在金属早期疲劳损伤的表征和复杂加筋复合材料分层损伤成像方面取得了研究成果。主持青年科学基金项目,参与多项面上项目和横向项目,发表SCI论文多篇。
一、教育背景
2023年3月-2025年2月 浙江大学,机械工程,博士后
2017年9月-2022年12月 山东大学,检测技术与自动化装置,硕博连读,博士
2013年9月-2017年6月 宿州学院,电子信息工程,学士
二、工作经历
2025年3月-至今 阜阳师范大学,硕士生导师
三、论文与专利
发表学术论文:
1. G Zhao, M Jiang, W Li, et al. Early fatigue damage evaluation based on nonlinear Lamb wave third-harmonic phase velocity matching[J]. International Journal of Fatigue, 2022: 107288.
2. G Zhao, M Jiang, Y Luo, et al. Third harmonic approximate phase velocity matching nonlinear early fatigue damage detection[J]. Measurement, 2022, 189: 110518.
3. G Zhao, Z Yu, S Wu, et al. Ultrasonic full guided wavefield for damage detection in curved CFRP parts[J]. Composites Communications, 2024: 101994.
4. G Zhao, Jiang M, Luo Y, et al. Comparison of sensitivity in nonlinear ultrasonic detection based on Lamb wave phase velocity matching mode[J]. Nondestructive Testing and Evaluation, 2022: 1-16.
5. G Zhao, Zeng Y, Yu Z, et al. Delamination Detection in CFRP Stringers with A0-Mode Lamb Wave Curvature[J]. Sensors, 2025, 25(6): 1915.
6. G Zhao, C Liu, M Jiang, et al. Early Fatigue Crack Damage Identification by Multi-classification Support-Vector Machine Based on Lamb Wave and Temperature Compensation[J]. Journal of Materials Engineering and Performance, 2022: 1-14.
7. G Zhao, C Liu, L Sun, et al. Aluminum Alloy Fatigue Crack Damage Prediction Based on Lamb Wave-Systematic Resampling Particle Filter Method[J]. Structural Durability & Health Monitoring, 2022, 16(1): 81.
8. X Qin, C Peng, G Zhao, et al. Full life-cycle monitoring and earlier warning for bolt joint loosening using modified vibro-acoustic modulation[J]. Mechanical Systems and Signal Processing, 2022, 162: 108054.
9. Y Zeng, G Zhao, H Jin, et al. Laser ultrasonic inspection of subsurface defects at high temperature using mode-converted surface wave[J]. Optics Express, 2025, 33(5): 10364-10377.
10. Z Yu, W Ouyang, Z Zhu, G Zhao, H Wang, H X Peng, ... & J Chen. In-situ ultrasonic quantification of volumetric impact damage in CFRP laminate with full matrix capture[J]. Composites Part A: Applied Science and Manufacturing, 2025: 109251.
申请发明专利:
1. 一种用于金属材料的疲劳损伤定位方法及系统:202211397621.9[P].2024-12-13.
四、主持项目
国家自然科学基金-青年科学基金项目(C类),主持在研,2025.01-2027.12,。
五、获奖
1. 第八届中国互联网+ 金奖
六、联系方式
Email:zhaogaozheng321@163.com
