合工大首页 English

测控技术与仪器系

测控技术与仪器系

李骏睿

2015-04-20


姓名

李骏睿

职称

副研究员

所属系

测控系

邮箱

lijunrui@hfut.edu.cn

电话


个人简历

李骏睿,博士,副研究员。分别于2011年、2014年在合肥工业大学获学士和硕士学位,于2019年在美国奥克兰大学获工学博士学位。2019年至2021年在美国密西西比大学国家物理声学中心担任博士后研究员。2021年底加入合肥工业大学必赢nn699net全场光学测试实验室。

主要研究方向为白光测量技术及激光测量技术。其中白光测量技术包括数字图像相关技术(Digital Image Correlation)与数字光栅投影技术(Digital Fringe Projection)。激光测量技术包括激光散斑干涉技术(Digital Speckle Interferometry)、剪切散斑干涉技术(Digital Shearing Speckle Interferometry)以及激光多普勒测振技术(Laser Doppler Vibrometry)。总计参编学术专著1部,2项专利(其中1项国际专利),发表相关学术期刊论文20余篇(其中SCI检索17)。为国际汽车工程师协会(SAE)以及国际光学学会(SPIE)会员。论文学术引用400余次,i10高引用因子论文数为14篇。其中第一作者论文“Whole-field thickness strain measurement using multiple camera digital image correlation system”入选“Optics and Lasers in EngineeringSCI二区”2017-2020最高引用论文目录(总计25篇)。

研究领域

数字图像相关技术(Digital Image Correlation)

数字光栅投影技术(Digital Fringe Projection)

激光测量技术包括激光散斑干涉技术(Digital Speckle Interferometry)

剪切散斑干涉技术(Digital Shearing Speckle Interferometry)

激光多普勒测振技术(Laser Doppler Vibrometry)

开设课程

科研项目

发表论文

    1. Li J, Yang G, Siebert T, Shi M, Yang L. A method of the direct measurement of the true stress-strain curve over a large strain range using multi-camera digital image correlation. Optics and Lasers in Engineering. 2018 Aug; 107:194-201, 2018. (SCI二区)

    2. Li J, Zhang B, Kang X, Xu W, Yang G, Yang L. Single Camera 3D Digital Image Correlation Using a Polarized System. Instruments and Experimental Techniques. 2018 Jan 1; 61(1):99-105. (SCI收录)

    3. Li J, Dan X, Xu W, Wang Y, Yang G, Yang L. 3D digital image correlation using single color camera pseudo-stereo system. Optics & Laser Technology. 2017 Oct 1; 95:1-7. (SCI二区)

    4. Li J, Xie X, Yang G, Zhang B, Siebert T, Yang L. Whole-field thickness strain measurement using multiple cameras digital image correlation system. Optics and Lasers in Engineering. 2017 Mar 1; 90:19-25. (SCI二区)

    5. Li J, Xu W, Xie X, Siebert T, Yang L. Experimental study of FLD0 for aluminum alloy using digital image correlation with modified ISO method. International Journal of Materials Research. 2016 Mar 11; 107(3):245-53. (SCI收录)

    6. Li, J, Yu L, Chen W. Simulation and Design of the Structure of an Artifact for Articulated Coordinate Measuring Machine. Tool Engineering. 2010; 44(12):88-91. (In Chinese)

    7. Xu W, Li J, Zhang B, Yang L. A new approach to reduce springback in sheet metal bending using digital image correlation. International Journal of Materials Research. 2019 Aug 12;110(8):726-33. (SCI收录)

    8. Dan X, Li J, Zhao Q, Sun F, Wang Y, Yang L. A Cross-Dichroic-Prism-Based Multi-Perspective Digital Image Correlation System. Applied Sciences. 2019 Jan;9(4):673. (SCI三区)

    9. Xie X, Li J, Sia B, Bai T, Siebert T, Yang L. An experimental validation of volume conservation assumption for aluminum alloy sheet metal using digital image correlation method. The Journal of Strain Analysis for Engineering Design. 2017 Jan; 52(1):24-9. (SCI收录)

    10. Xie X, Li J, Zhang B, Yan L, Yang L. Improvement of phase map quality for Michelson interferometer based spatial phase-shift digital shearography. Asian J. Phys. 2015; 24(10):1391-400.

    11. Wang Y, Li J, Sun J, Liu P, Yang L. Frequency domain filtering for phase fringe patterns of digital speckle pattern interferometry. Chin. Opt. 2014 Mar 14; 7(3):389-95. (EI Journal, In Chinese)

    12. Zhang B, Xu W, Li J, Siebert T, Yang L. Experimental Techniques. 2020 Apr;44(2):187-95. (SCI收录)

    13. Wang Y, Dan X, Li J, Wu S, Yang L. Multi-perspective digital image correlation method using a single-color camera. Science China Technological Sciences. 2018 Jan 1; 61(1):61-7. (SCI二区)

    14. Sia B, Yang G, Li J, Yang L. Experimental Measurement of Metal Strength and Stiffness Using a Double-Side 3D Digital Image Correlation Setup. Materials Evaluation. 2018 Sep 1;76(9):1207-17. (SCI收录)

    15. Gao X, Wang Y, Li J, Dan X, Wu S, Yang L. Spatial carrier color digital speckle pattern interferometry for absolute three-dimensional deformation measurement. Optical Engineering. 2017 Jun; 56(6):066107. (SCI收录)

    16. Xie X, Lee CP, Li J, Zhang B, Yang L. Polarized digital shearography for simultaneous dual shearing directions measurements. Review of Scientific Instruments. 2016 Aug; 87(8):083110. (SCI三区)

    17. Wang Y, Sun J, Li J, Gao X, Wu S, Yang L. Synchronous measurement of three-dimensional deformations by multi-camera digital speckle patterns interferometry. Optical Engineering. 2016 Apr; 55(9):091408. (SCI收录)

    18. Xie X, Chen X, Li J, Wang Y, Yang L. Measurement of in-plane strain with dual beam spatial phase-shift digital shearography. Measurement Science and Technology. 2015 Sep 29; 26(11):115202. (SCI三区)

    19. Kang X, Li T, Sia B, Li J, Yang L. A novel calibration method for arbitrary fringe projection profilometry system. Optik-International Journal for Light and Electron Optics. 2017 Nov 1; 148:227-37. (SCI收录)

    20. Wang Y, Feng J, Wang X, Liu P, Li J, Yang L. Shearing speckle interferometry based on slit aperture for dynamic measurement. Editorial Office of Optics and Precision Engineering, 2015; 23(3):645-651. (EI Journal, In Chinese)

    21. Liu P, Wang Y, Feng J, Sun J, Li J, Yang L, Phase Detection Technology in Spatial Carrier Based on Deflection Angle. Opto-Electronic Engineering, 2015; 42(3):39-43. (In Chinese)

    22. Gao X, Yang L, Wang Y, Zhang B, Dan X, Li J, Wu S. Spatial phase-shift dual-beam speckle interferometry. Applied Optics. 2018 Jan 20; 57(3):414-9. (SCI三区)

    23. Fan Y, Jalali A, Chen A, Zhao X, Liu S, Teli M, Guo Y, Li F, Li J, Siegel A, Yang L. Skeletal loading regulates breast cancer-associated osteolysis in a loading intensity-dependent fashion. Bone research. 2020 Feb 14;8(1):1-1. (SCI-E收录)

专著教材

  1. Yang L, Li J. Chapter: Shearography, Handbook of Advanced Non-Destructive Evaluation. ISBN: 978-3-319-26553-7, Springer, 2018.


申请专利

    1. Yang L, Li J, Yang G, Wan X, Zhang B. 3D Digital Image Correlation using Single Color Camera Pseudo-Stereo System. US Patent 16/480,829, 2019.(美国/国际专利)

    2. 王永红, 孙建飞, 冯家亚, 刘佩, 李骏睿, 同步三维散斑干涉测量系统及测量方法. CN201410012738, 2016. (中国专利)


获奖成果






Baidu
sogou