(1.)Basic Information

Dr. Cuixiang Pei

Hometown: Sichuan, China

Current position: Associate professor, School of Aerospace, Xi'an Jiaotong University

Adress:  〒710049, 28 West Xianning Road, Xi'an, China

Tel: +86-18292875580

Email: pei.cx@mail.xjtu.edu.cn, peicx2009@gmail.com

(2.)Education

       2009.10~2012.09: PhD in Nuclear Engineering

                                         Department of Nuclear Engineering and Management,

                                         The University of Tokyo, Tokyo, Japan

       2007.09~2009.05:  MS in Engineering Mechanics

                                          School of Aerospace, Xi'an Jiaotong University, Xi'an, China

       2003.09~2007.07:  BS in Engineering Mechanics

                                          School of Aerospace, Xi'an Jiaotong University, Xi'an, China

       2000.09~2003.07: Senior Middle School,Sichuan, China   

 

(3.)Work experience

       2014.10~              :  Associate Professor

                                         Department of Engineering Mechanics,

                                         School of Aerospace, Xi'an Jiaotong University, Xi'an, China                                        

       2014.03~2014.09:  Assistant Professor

                                          Department of Nucear Engineering and Management

                                          The University of Tokyo, Tokyo, Japan

       2012.10~2014.02:  Postdoctoral researcher

                                          Department of Nucear Engineering and Management

                                          The University of Tokyo, Tokyo, Japan

     

  

(4.)Scientific Research

      1.  Numerical simulation method and software development for ultrasonic testing (UT)

      2.  Devlopment of new electromagnetic acoustic testing (EMAT) methods and applications

      3.  New laser ultrasonics testing (LUT) methods devlopment and applications

      4.  New laser exited thermography methods devlopment and applications

      5.  Thermo-electromagnet-mechanics coupling analysis for functional structures

(5.)Publications

[1]    Dongci Yi, Cuixiang Pei*, Tianhao Liu, Zhenmao Chen, Inspection of cracks with focused angle beam laser ultrasonic wave. Applied Acoustics, 145: 1-6, 2019.

[2]    Jinxing Qiu, Cuixiang Pei, Haochen Liu, Zhenmao Chen. Detection of surface cracks by laser spot thermography at elevated temperature. Int. J. Appl. Electromagn. Mech., In-press, 2018.

[3]    Cuixiang Pei, Yongxiang Wang, Kaiqiang Wang and Zhenmao Chen*. Numerical analysis of fracture behavior of HL-2M vacuum subjected to electromagnetic force during plasma disruption. IEEE Trans. Plasma Science, 46 (5): 1622-1627, 2018.

[4]    Cuixiang Pei*, Siqi Zhao, Tianhao Liu, Zhenmao Chen*. A new method for plastic strain measurement with Rayleigh wave polarization. Ultrasonics, 88: 168-173, 2018.

[5]    Tianhao Liu, Cuixiang Pei*, Xin Cheng, Haiqiang Zhou, Pan Xiao, Zhenmao Chen. Adhesive debonding inspection with a small EMAT in resonant mode. NDT and E International, 98: 110-116, 2018.

[6]    Cuixiang Pei, Tianhao Liu, Hongen Chen and Zhenmao Chen*. Inspection of Delamination Defect in First Wall with a Flexible EMAT-Scanning System. Fusion Engineering and Design, 136: 549-553, 2018.

[7]    周海强,裴翠祥*,刘文文,弋东驰,杨占峰. PBX模拟材料内应力激光掠面纵波检测方法研究. 含能材料,26(9): 786-790, 2018.

[8]    Haochen Liu, Cuixiang Pei, Jinxing Qiu, Zhenmao Chen*. Inspection of delamination defect in first wall panel of Tokamak device by using laser infrared thermography technique. IEEE Trans. Plasma Science, 46: 2699-2707, 2018.

[9]    Xudong Li, Shejuan Xie, Hongwei Yuan, Cuixiang Pei, Zhenmao Chen. An FEM-BEM method for halo current problem and its application to HL-2M Tokamak. Fusion Engineering and Design, 2018, Available online.

[10]Zheng Xie, Qun Li, Pengpeng Shi, Kaiqiang Wang, Cuixiang Pei, Zhenmao Chen. A study on influence of magnetic field on fracture of ferromagnetic material due to magneto-mechanical coupling effects. Fusion Engineering and Design, 2018, Available online.

[11]Jinxing Qiu, Cuixiang Pei*, Haochen Liu, Zhenmao Chen*, Kazuyuki Demachi, Remote inspection of surface cracks in metallic structures with fiber-guided laser array spots thermography, NDT and E International, 92: 213-220, 2017.

[12]Cuixiang Pei*, Pan Xiao, Siqi Zhao, Zhenmao Chen*. Development of a flexible film electromagnetic acoustic transducer for nondestructive testing. Sensors and Actuators A: Physical, 258: 68-73, 2017.

[13]Jinxing Qiu, Cuixiang Pei*, Haochen Liu, Zhenmao Chen*. Quantitative evaluation of surface crack depth with laser spot thermography. International Journal of Fatigue, 101 (1): 80-85, 2017.

[14]Cuixiang Pei, Pan Xiao, Siqi Zhao, Zhenmao Chen*, Toshiyuki Takagi, A flexible film type EMAT for inspection of small diameter pipe. Journal of Mechanical Science and Technology, 31(8): 3641-3645, 2017.

[15]Wenlu Cai, Shejuan Xie, Cherdpong Jomdecha, Xiaojuan Wang, Cuixiang Pei, Yong Li, Noritaka Yusa, Zhenmao Chen, Assessment of local conductivity distribution in stress corrosion crack region using direct current potential drop method, Corrosion Science, 123 (15): 197-208, 2017.

[16]Shejuan Xie, Mingming Tian, Pan Xiao, Cuixiang Pei, Zhenmao Chen, Toshiyuki Takagi. A hybrid nondestructive testing method of pulsed eddy current testing and electromagnetic acoustic transducer techniques for simultaneous surface and volumetric defects inspection. NDT&E International, 86: 153-163, 2017.

[17]Kaiqiang Wang, Shejuan Xie, Hongwei Yuan, Weixin Li, Cuixiang Pei, Zhenmao Chen*, Yudong Pan, Lijun Cai, Jiaxian Li, Influence of Shield Plates on Electromagneto-Mechanical Dynamic Response of HL-2M Vacuum Vessel During Vertical Displacement Event, COMPEL, 36(6): 1759-1773, 2017.

[18]Hongwei Yuan, Xudong Li, Kaiqiang Wang, Cuixiang Pei, Zhenmao Chen*, Yudong Pan, A Method for Electromagneto-Thermo-Mechanical Direct Coupling Analysis and its Application to Tokamak Structures, Int. J. Appl. Electromagn. Mech., 55: 243-255, 2017.

[19]Zheng Xie, Qun Li, Zhensheng Yuan, Hongwei Yuan, Cuixiang Pei, Zhenmao Chen*, Weihua Wang, Experiments on the magnetostriction properties of the China low activation martensitic steel, Fusion Engineering and Design, 125: 337-342, 2017.

[20]裴翠祥,弋东驰,刘文文,周海强. PBX内部缺陷激光超声无损检测数值模拟. 含能材料, 25(10): 822-828, 2017.

[21]Cuixiang Pei, Siqi Zhao, Pan Xiao, Zhenmao Chen*. A modified meander-line-coil EMAT design for signal amplitude enhancement. Sensors and Actuators A: Physical, 247: 539-546, 2016.

[22]Cuixiang Pei, Jinxin Qiu, Haocheng Liu and Zhenmao Chen*. Simulation of surface cracks measurement in first walls by laser spot array thermography. Fusion Engineering and Design, 109-111: 1237-1241, 2016.

[23]Cuixiang Pei*, Mitsuru Uesaka and Wenjing Wu. Image Enhancement for On-site x-ray Nondestructive Inspection. Journal of X-ray Science and Technology, 24: 797-805, 2016.

[24]Guicai Yang, Cuixiang Pei, Pan Xiao, Zhenmao Chen*. A rotating bias magnetic field EMAT and applications to NDT of ITER divertor components. Int. J. Appl. Electromagn. Mech., 52: 1331-1339, 2016.

[25]Liu Haochen, Xie Shejuan, Pei Cuixiang, Chen Zhenmao*. Numerical simulation method for IR thermography NDE of delamination defect in multilayered plate. Int. J. Appl. Electromagn. Mech., 52: 381-389, 2016.

[26]Cai Wenlu, Xie Zheng, Xie Shejuan, Pei Cuixiang, Li Yong, Chen Zhenmao*. Influence of the Online Closure Loading on the Eddy Current Testing Signals of Closed Fatigue Crack. Int. J. Appl. Electromagn. Mech., 52: 297-306, 2016.

[27]Hongwei Yuan, Zhensheng Yuan, Weixin Li, Cuixiang Pei, Shejuan Xie, Zhenmao Chen*. Electromagnetic Dynamic Response of HL-2M Vacuum Vessel under Plasma Disruption considering the Electromagneto-Mechanical Coupling Effect. Fusion Engineering and Design, 109-111: 496-502, 2016.

[28]     赵思琦,裴翠祥,肖盼,陈振茂. 基于表面波的塑性变形电磁超声定量无损检测. 无损检测,38 (10): 25-28, 2016.

[29]     弋东驰,裴翠祥,陈振茂. 激光-环形电磁超声方法检测表面裂纹. 无损检测, 38 (11): 70-73, 2016.

[30]Cuixiang Pei, Dongci Yi and Zhenmao Chen. Laser-EMAT Ultrasonic TOFD signal enhancement for defect measurement. Int. J. Aerospace and Lightweight Structures, 5 (1), 2015.

[31]F.H. Li, C.X. Pei, B. Shi, L.B. Sun. Design of ultrafast laser-driven microactuator based on photoacoustic mechanism. Optics Express, 23 (16): 20563-20568, 2015.

[32]Cuixiang Pei, Mitsuru Uesaka, Kazuyuki Demachi, Tetsuo Fukuchi. Measurement of Residual Stress with Laser-EMAT Ultrasonic Method. Int. J. Appl. Electromagn. Mech., 45: 109-114, 2014.

[33] M. Uesaka, K. Dobashi, T. Fujiwara, Cuixiang Pei, Wenjing Wu. On-site nondestructive inspection by upgraded portable 950 keV/3.95 MeV X-band linac x-ray sources. Journal of Physics B, 47: 234008, 2014.

[34] Zhensheng Yuan, Weixin Li, Cuixiang Pei, Wenjing Wu, Zhenmao Chen. Dynamic analysis of a ferromagnetic structure in strong magnetic field with electromagneto-mechanical coupling. Int. J. Appl. Electromagn. Mech., 45: 387-394, 2014.

[35]     毛赢,裴翠祥.基于激光电磁超声的裂纹检测研究.中国机械工程,10: 1337-1341, 2014.

[36]Cuixiang Pei, K. Demachi, T. Fukuchi, K. Koyama and M. Uesaka. Cracks measurement using fiber-phased array laser ultrasound generation. Journal of Applied Physics, 113: 163101/1-7, 2013.

[37] Cuixiang PeiKazuyuki Demachi, Tetsuo Fukuchi, Mitsuru Uesaka. Development of a fiber-phased array laser-EMAT system for defect inspection. Journal of Physics: Conference Series, 113: 163101/1-7, 2013.

[38]LIU Tianyan, YUAN Zhensheng, LI Yong, CHEN Zhenmao, WU Wenjing, PEI Cuixiang. Numerical simulation of electromagneto-mechanical coupling dynamic response of a typical Tokomak structure. Plasma Science and Technology, 15( 3): 252-256, 2013.

[39]Cuixiang Pei, T. Fukuchi, H. Zhu, K. Koyama, K. Demachi and M. Uesaka. A study of internal defect testing with the laser-EMAT ultrasonic method. IEEE Trans. Ultrason. Ferroelectrics and Freq. Cont., 59: 2702-2708, 2012.

[40]Cuixiang Pei, K. Demachi, H. Zhu, T. Fukuchi, K. Koyama and M. Uesaka. Inspection of cracks using laser-induced ultrasound with shadow method: modeling and validation. Optics & Laser Technology, 44: 860-865, 2012.

[41]Cuixiang Pei, K. Demachi, H. Zhu, K. Koyama and M. Uesaka. Numerical simulation of phased-array laser ultrasound and its application for defect inspection. Int. J. Appl. Electromagn. Mech., 39: 405-411, 2012.

[42]Cuixiang Pei, Haitao Zhu, Kazuyuki Demachi, Mitsuru Uesaka and Masaki Sekino. Magnetic Field Gradient Imaging for Material Classification by Magnetic Resonance Imaging. Int. J. Appl. Electromagn. Mech., 39: 335-340, 2012.

[43]Haitao Zhu, Kazuyuki Demachi, Cuixiang Pei, Masaki Sekino, Mitsuru Uesaka. Correction of Chemical Shift Misregistration by Images from Two Different Bandwidths. Magnetic Resonance Imaging, 30: 583-588, 2012.

[44]Cuixiang Pei and Kazuyuki Demachi. Numerical simulation of residual stress measurement with acoustic wave. E-Journal of Advanced Maintenance, 2: 160-167, 2011.

[45]Cuixiang Pei, Zhenmao Chen. Method improvement of EMAT signals simulation and its application in TBC inspection. Int. J. Appl. Electromagn. Mech, 33: 1077-1085, 2010.

[46]裴翠祥,陈振茂. 电磁超声的数值模拟方法. 无损检测,30(9): 603-607, 2008.