Boqiang Xu

Date:2021-11-26View:

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Name
Boqiang Xu
Position and Technical Title:
Professor、Doctoral Supervisor
Research Areas
Modern structural health management new technology research; laser/piezoelectric ultrasonic damage detection, diagnosis technology; multi-field coupling theory and calculation; photoacoustic photoheat phenomenon; strain gradient sensing theory and damage online monitoring technology
Candidate major:

                               M.S.: Physics, Electronic Science and Technology                                
                               PhD: Solid Mechanics                                
Telephone:
0511-88780162
E-mail
bqxuujs.edu.cn
Corresponding Address
Faculty of Science, Jiangsu University, No.301, Xuefu Road, Zhenjiang, Jiangsu Province(212013)
 
Education and Work Experience

● 1982/09-1987/07, East China Normal University, Physics, B.S.                
● 1999/09-2002/06, Jiangsu University, Applied Mathematics, M.S.                
● 2001/09-2005/01, Nanjing University of Science and Technology, Optical Engineering, Ph.D                
● 1987/07-1993/06, Jiangsu University, College of Science, Assistant Professor                
● 1993/07-1999/06, Jiangsu University, College of Science, Lecturer                
● 1999/07-2005/06, Jiangsu University, College of Science, Associate Professor                
● 2005/07-present, Jiangsu University, College of Science, Professor                
 
Academic and Social Part-time

               ● Vice President of Zhenjiang Physical Society, Member of Jiangsu Physical Society                
               ● Director of Health Monitoring and Early Warning Branch of China Instrument Society                
               ● Member of Jiangsu Teacher Education Professional Guidance Committee, Secondary Science Education Professional Guidance Sub-committee                
               ● Member of the Steering Committee of Physics in Higher Education, Ministry of Education, East China Region                
 
Teaching Courses

               ● Ultrasonic Waveguiding in Solids (M.S.)                
               ● Piezoelectric Ultrasonic Transducers and Applications (M.S.)                
               ● College Physics (Undergraduate)                
               ● College Physics Experiments (Undergraduate)                
 
Academic Research Topic

● Key Project of International (Regional) Cooperation and Exchange, 11520101001, Theory and Method of Non-Contact Fast and Accurate Imaging for Large-Scale Structural Damage Detection, 2016/01-2020/12, Under Research, Participated                
● Key R&D Program of Jiangsu Provincial Science and Technology Department-Industrial Foresight and Common Key Technologies, BE2015138, Rapid Detection and Accurate Imaging of Structural Damage in Green Manufacturing of Large Complex Equipment, 2015/06-2018/06, completed, chair                
● National Natural Science Foundation of China, 11172114, Design of Fast Adaptive Health Monitoring System Based on Electromechanical Impedance, 2012/01-2015/12, completed, chair                
● Major Project of Natural Science Foundation of Jiangsu Provincial Education Department, 10KJA140006, Research on the Detection of Thin Film Properties Based on the Bi-directional Coupling Effect of Laser Ultrasound and Piezoelectricity, 2010/09-2013/12, completed, chair.                
● Special Research Fund for Doctoral Programs, Ministry of Education, 20123227130002, Strain Gradient Sensor for Early Damage Monitoring of Aeronautical Structures Based on Flexural Electric Effect, 2013/01-2015/12, completed, participant                
● National High Technology Research and Development Program (863), 2009AA03Z107, Orderly Growth and Preparation Technology of Piezoelectric Fiber Composites and Intelligent Drive/Sensor Parts, 2009/01-2011/12, completed, participated.                
● "Six Talent Summits" Project of Jiangsu Province, 2012-ZBZZ-027, Research on Fast Adaptive Health Monitoring System Based on Force-Magnetic-Electrical Impedance, 2013/01-2016/12, completed, host.                
● Natural Science Research of Jiangsu Provincial Education Department, 08KJB140003, Theory and Experimental Detection of Laser Ultrasonic Propagation in Inelastic Media, 2008/10-2010/12, completed, chair.              
 
Academic Publications

● Xu, B. Q., Zhou, L., Xu, G. D., Xu, C. G., Zhang, S., (2019). Research on ultrasonic damage imaging based on inverse scattering model in frequency domain. Fifth International Symposium on Laser Interaction with Matter                
● Xu, C. G., Xu, B. Q., Luo, Y., Xu, G. D., Zhang, S., (2019). Time-reversal damage imaging based on laser ultrasonic guide waves with temporal filter method. Fifth International Symposium on Laser Interaction with Matter                
● Xu, G. D., Xu, B. Q., Xu, C. G., Luo, Y., (2019). Damage detection of CFRP laminates by using ultrasonic Lamb wave with a sparse array. Fifth International Symposium on Laser Interaction with Matter                
● Zhang S., Zhang Y., Lu W., Hu G. H., Xu B. Q. & Cao W. W., (2018), Low-frequency forbidden bandgap engineering via a cascade of multiple 1D superlattices. Journal of Applied Physics, 124(15), 1150102. (期刊封面论文)                
● Zhang S., Xu B. Q., & Cao W. W., (2018), Controlling the angle range in acoustic low-frequency forbidden transmission in solid-fluid superlattice. Journal of Applied Physics, 123, 115111.                
● Zhang S., Xu B. Q., & Cao W. W., (2018), A subwavelength asymmetric acoustic design for waveform-preserved highly forward transmission. AIP Advances, 8(8): 085102.                
● Xu, C. G., Xu, B. Q., Luo, Y., Xu, G. D., & Lu, L. Z., (2017). Ultrasonic guided wave based damage imaging by time-reversal method in frequency-wavenumber domain. Paper presented at the 4th International Symposium on Laser Interaction with Matter.                
● Xu, G. D., Xu, B. Q., Xu, C. G., & Luo, Y. (2017). Numerical modeling of guided ultrasonic waves generated and received by piezoelectric wafer in a Delaminated composite beam. Paper presented at the 4th International Symposium on Laser Interaction with Matter.                
● Xu, G. D., Xu, B. Q., Xu, C. G., & Luo, Y. (2016). The effect of damage and temperature on electrical impedance of the PZT-beam coupled structure. Journal of Vibroengineering, 18(6), 3557-3567.                
● Xu, G. D., Xu, B. Q., Xu, C. G., & Luo, Y. (2016). Temperature effects in the analysis of electromechanical impedance by using spectral element method. Multidiscipline Modeling in Materials and Structures, 12(1), 119-132.                
● Xu, C. G., Xu, B. Q., Luo, Y., Xu, G. D., & Yuan, F.-G. (2015). Ultrasonic guided wave based horizontal crack imaging in metal plate by local wavenumber analysis. Paper presented at the Third International Symposium on Laser Interaction with Matter.                
● Zhang, J., Xu, B. Q., Xu, G. D., Xu, C. G., Luo, Y., & Yuan, F.-G. (2015). Numerical modeling of guided ultrasonic waves generated and received by PZT wafer in a beam. Paper presented at the Third International Symposium on Laser Interaction with Matter.                
● Gu, A., Luo, Y., & Xu, B. (2015). Characteristic Identification of Cracking Acoustic Emission Signals in Concrete Beam Based on Hilbert-Huang Transform Advances in Acoustic Emission Technology (pp. 205-216): Springer.                
● Gu, A., Luo, Y., & Xu, B. (2015). Experimental study on acoustic emission characteristics of reinforced concrete components. SMART STRUCTURES AND SYSTEMS, 16(1), 67-79.                
● Wang, Z., Luo, Y., Zhao, G., Xu, B. Q., & Yuan, F.-G. (2015). Design of an Orthotropic Piezoelectric Composite Material Phased Array Transducer for Damage Detection in a Concrete Structure. Research in Nondestructive Evaluation(just-accepted).                
● 许伯强, 刘洪凯, 徐桂东, 徐晨光, & 李俊敏. (2014). 基于应力-位移混合有限元法的激光超声数值模拟. 激光技术, 38(2), 230-235. 1001-3806.2014.02.018                
● 李红, 骆英, 许伯强, 徐桂东, & 徐晨光. (2013). 谱有限元模拟正交各向异性黏弹性材料中导波传播特性. 声学学报, 38(3), 319-325.                
● 徐桂东, 许伯强, 徐晨光, & 陈丽娟. (2012). 谱有限元数值分析各向异性复合板中导波色散特性. 声学学报, 37(5), 521-526.                
● 许伯强, 陈丽娟, 徐桂东, 徐晨光, & 骆英. (2012). 各向异性板中激光激发Lamb波的数值模拟. 中国激光, 39(3), 303008.                
● 许伯强, 杨小平, 徐桂东, 徐晨光, 陈安麒, & 刘洪凯. (2012). 弱散射材料中激光超声单散射理论模型. 中国激光, 39(3), 303003.                
● 许伯强, 岳去疾, 陈安麒, 徐晨光, & 徐桂东. (2012). 压电晶片激发理想流体中各向异性板的泄漏Lamb波. 江苏大学学报(自然科学版), 33(4), 457-462.                
● 许伯强, 张子国, 徐晨光, 徐桂东, & 杨小平. (2012). 微纳米薄膜材料中激光皮秒超声的数值模拟. 江苏大学学报: 自然科学版, 33(1), 83-87.                
● Sun, H. X., Xu, B. Q., Zhang, H., Gao, Q. A., & Zhang, S. Y. (2011). Influence of adhesive layer properties on laser-generated ultrasonic waves in thin bonded plates. Chinese Physics B, 20(1).                
● Xu, C. G., Xu, B. Q., & Xu, G. D. (2011). Laser-induced thermoelastic Leaky Lamb waves at the fluid-solid interface. Applied Physics a-Materials Science & Processing, 105(2), 379-386.                
● Dai, Y., Xu, B. Q., Luo, Y., Li, H., & Xu, G. D. (2010). Finite element modeling of the interaction of laser-generated ultrasound with a surface-breaking notch in an elastic plate. Optics and Laser Technology, 42(4), 693-697.                
● Luo, Y., Li, H., Xu, B. Q., & Xu, G. D. (2010). Spectral finite element method modeling of ultrasonic guided waves propagation in layered viscoelastic film/substrate materials. Journal of Applied Physics, 108(12).                
● Sun, H. X., Xu, B. Q., Xu, G. D., & Xu, C. G. (2010). Study on laser-generated Lamb waves propagation in viscoelastic and anisotropic plate. Chinese Optics Letters, 8(8), 776-779.                
● 孙宏祥, & 许伯强. (2010). 激光激发Lamb波的有限元时域和频域数值分析. 中国激光, 37(2), 537-542.                
● 徐晨光, 许伯强, 徐桂东, 汪昊, & 张子国. (2010). 激光热弹激励流固界面波的有限元数值模拟. 中国激光, 37(7), 1885-1891.                
● 许伯强, 汪昊, 徐桂东, 徐晨光, & 张子国. (2010). 金属材料中激光产生熔池的数值模拟及应用. 江苏大学学报: 自然科学版, 31(003), 358-362.                
● Xu, B. Q., Wang, F., Feng, J., Wang, J. J., Sun, H. X., & Luo, Y. (2009). Laser-generated thermoelastic acoustic sources and acoustic waves in anisotropic plate. Science in China Series E-Technological Sciences, 52(3), 566-574.                
● Xu, B. Q., Feng, J., Xu, G. D., Wang, J. J., Sun, H. X., & Cao, G. R. (2008). Laser-generated thermoelastic acoustic sources and Lamb waves in anisotropic plates. Applied Physics a-Materials Science & Processing, 91(1), 173-179.                
● 孙宏祥, 许伯强, 王纪俊, 徐桂东, 徐晨光, & 王峰. (2009). 激光激发黏弹表面波有限元数值模拟. 物理学报, 58(9), 6344-6350.                
● 孙宏祥, 许伯强, 徐晨光, 徐桂东, & 王峰. (2009). 横观各向同性材料中激光超声谱有限元数值模拟. 光子学报, 38(5).                
● Xu, B. Q., Shen, Z. H., Ni, X. W., Wang, J. J., Guan, J. F., & Lu, J. (2006). Thermal and mechanical finite element modeling of laser-generated ultrasound in coating-substrate system. Optics and Laser Technology, 38(3), 138-145.                
● Xu, B. Q., Shen, Z. H., Wang, J. J., Ni, X. W., Guan, J. F., & Lu, J. (2006). Thermoelastic finite element modeling of laser generation ultrasound. Journal of Applied Physics, 99(3).                
● 许伯强, 王纪俊, 王国余, 沈中华, & 陆建. (2006). 金属材料中激光产生Lamb波的数值模拟. 江苏大学学报: 自然科学版, 26(6), 542-546.                
● 许伯强, 沈中华, 倪晓武, 关键飞, & 陆建. (2005). 激光热弹激发涂层/基底系统中声表面波的有限元数值模拟. 声学学报, 30(003), 201-206.                
● Xu, B. Q., Shen, Z. H., Ni, X. W., & Lu, J. (2004). Numerical simulation of laser-generated ultrasound by the finite element method. Journal of Applied Physics, 95(4), 2116-2122. ● Xu, B. Q., Shen, Z. H., Ni, X. W., Lu, J., & Wang, Y. W. (2004). Finite element model of laser-generated surface acoustic waves in coating-substrate system. Journal of Applied Physics, 95(4), 2109-2115.                
● Xu, B. Q., Shen, Z. H., Ni, X. W., Wang, J. J., Guan, J. F., & Lu, J. (2004). Determination of elastic properties of a film-substrate system by using the neural networks. Applied Physics Letters, 85(25), 6161-6163.                
● Xu, B. Q., Shen, Z. H., Lu, J., Ni, X. W., & Zhang, S. Y. (2003). Numerical simulation of laser-induced transient temperature field in film-substrate system by finite element method. International Journal of Heat and Mass Transfer, 46(25), 4963-4968.                
 
Awards

               ● Cultivation and Improvement of Practical Innovation Ability of Undergraduates Based on the Construction of Curriculum System of Physics, Second Prize of Teaching Achievement of Jiangsu University, 2015, ranked first                
               ● Construction and improvement of the teaching system of three-dimensional university physics course, Second Prize of Teaching Achievement, Jiangsu University, 2013, ranked first                
               ● Construction and Practice of Physics Experimental Course, First-class prize of Teaching Achievement of Jiangsu University, 2013, ranked the third