个人简介
| 研究兴趣:结构健康监测与检测,应力检测、超声波、无线传感、数字信号处理 |
工作经历
| 2024.11 至今,西华大学,工程师; 2023.07 至 2024.01,中建六局华南建设有限公司,工程师 |
教育经历
| 2019.03 至 2023.06, 哈尔滨工业大学(深圳), 土木工程, 博士; 2015.09 至 2018.06, 重庆大学, 建筑与土木工程, 硕士; 2011.09 至 2015.07, 河北工业大学, 道路桥梁与渡河工程, 学士 |
研究方向
应力检测,超声无损检测 |
学术成果
(一)科研项目 [1] 国家自然科学基金,重大科研仪器研制项目:大型建筑钢构件及节点内部绝对应力检测仪器研制,2019.01至2023.12,780万元,结题,参与 [2] 国家自然科学基金,面上项目:基于响应关联的空间网格钢结构损伤劣化感知机理与监测方法,2020.01至2023.12,60万元,结题,参与 [3] 深圳市自然科学基金,重点项目:钢构件三维绝对应力检测仪关键技术研究,2020.11至2023.11,250万元,结题,参与
(二)期刊论文 [1] Wang YZ, Li ZH*, Zhu XP, Gong YX, Liu NX, Deng QX, Long ZL, Teng J. Plane stress measurement on the cross-section of steel components using ultrasonic shear waves[J]. Mechanical Systems and Signal Processing, 2023, 191: 110185. (JCR一区SCI收录,影响因子7.9) [2] Wang YZ, Liu NX, Gong YX, Zhu XP, Li ZH*, Long ZL, Teng J, Chen J. Three-dimensional stress measurement for structural steel plates using ultrasonic T-waves and P-waves[J]. Measurement, 2022, 190: 110310. (JCR一区SCI收录,影响因子5.6) [3] Wang YZ, Zhu XP, Gong YX, Liu NX, Li ZH*, Long ZL, Teng J. Combination of transverse and longitudinal ultrasonic waves for plane stress measurement of steel plates[J]. Applied Acoustics, 2022, 188: 108500. (JCR一区SCI收录,影响因子3.4) [4] Li ZH, Wang YZ, Zheng JC, Liu NX, Li M*, Teng J. Stress measurement for steel slender waveguides based on the nonlinear relation between guided wave group velocity and stress[J]. Measurement, 2021, 179: 109465. (JCR一区SCI收录,影响因子5.2) [5] 刘鹏飞, 王英瞩, 李祚华*, 刘海涛, 滕军, 陈杰. 基于非线性超声谐波法的混凝土构件应力检测[J]. 无损检测, 2021, 43(4): 6. [6] Li ZH, Liu NX*, Liu DK, Wang YZ, Teng J. Measurement of the uniaxial stress of steel members using the ultrasonic phase spectrum[J]. Structural Control and Health Monitoring, 2022, 29(9): e2994. (JCR一区SCI收录,影响因子5.4) [7] Li ZH, Gong YX*, Liu NX, Zhang YC, Wang YZ, Deng QX, Liu YZ, Long ZL, Teng J. Using longitudinal critically refracted waves to detect absolute stress of steel members considering the influence of temperature[J]. NDT & E INTERNATIONAL, 2023, 140: 102949. (JCR一区SCI收录,影响因子4.1) [8] Liu YZ, Long ZL*, Gong YX, Ju JZ, Wang YZ, Li ZH, Liu ML. Norm and interpolation based absolute stress evaluation in steel members using the LCR wave[J]. NDT & E INTERNATIONAL, 2023,137: 102783. (JCR一区SCI收录,影响因子4.1)
(三)发明专利 [1] 中国发明专利:一种基于超声横纵波结合的钢构件平面应力检测方法;专利授权号:ZL202011542431.2;已授权;排名第2 [2] 中国发明专利:基于超声导波应力敏感度分析的钢绞线单轴应力检测方法;专利授权号:ZL202010560525.6;已授权;排名第2 [3] 美国发明专利:Method for determination of internal uniaxial stress of steel member based on phase spectrum of ultrasonic transverse wave;专利授权号:US10996123B2;已授权;排名第4 [4] 美国发明专利:Method for determining plane stresses on in-service steel structure member based on phase spectrum of ultrasonic transverse wave;专利授权号:US11193838B2;已授权;排名第4 [5] 中国发明专利:一种基于横波一发三收的钢构件空间应力检测方法;专利申请号:CN202310635336.4;实质审查;排名第2 [6] 中国发明专利:一种在役钢构件考虑温度影响的绝对应力检测系统及方法;专利申请号:CN202310368609.3;实质审查;排名第5 |