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Dr Baoqiao GUO
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】 author :郭保桥 Release time :2011-07-29
BaoQiao GUO
School of Mechatronical Engineering BIT, Beijing 100084
E-Mail: baoqiao_guo@bit.edu.cn
Phone: +86-10-68918740
School of Mechatronical Engineering BIT, Beijing 100084
E-Mail: baoqiao_guo@bit.edu.cn
Phone: +86-10-68918740
Now I am a faculty staff in Beijing Institute of Technology, in the Shock Physique Chemistry Research Group, under the National Key Laboratory of Explosive Science and Technology. Special in experimental mechanics, especially optical methods for full-field measurement and its application. Now I focus my research in the 3D full-field measurement in high-speed and explosive test.
Education and training
2010–Now, Staff, School of Mechatronical Engineering, Beijing Institute of Technology.
2009–2010, Postdoc, School of AeroSpace, Tsinghua University.
2007–2008, Postdoc in Mechanics, École Nationale Supérieure d’Arts et Métiers (ENSAM), France.
2003–2007, PhD in Mechanics, École Nationale Supérieure d’Arts et Métiers (ENSAM), France.
2001–2003, Diploma of Engineer in Mechanics and transport, Institut Supérieur de l’Automobile et des Transports (ISAT), France.
2002–2003, Master in Mechanics and Civil Engineering, ISAT, France.
2000–2001, Master (first year) in Automobile Engineering, Wuhan University of Technology, China.
1996–2000, Bachelor in Automobile Engineering, Wuhan University of Technology, China.
Professional Skills
Optical Method
• Grating Method, Digital Image Correlation (DIC),Interferom-etry, ESPI, Shearography ...
• Virtual Fields Methods: the mechanical behavior identification by the Virtual Fields Method and the measured deformation fields in static and dynamic.
• Image Processing: Signal (1D) and images (2D) Treatments, Phase Unwrapping, Smoothing, Integration and Derivation in 2D)...
Vibration Analysis and measurement: transient response, modal response, harmonic response Mechanics: Finis Elements, Composites Materials, detection of no-destruct, identification of ma¬terial’s mechanics properties
• Virtual Fields Methods: the mechanical behavior identification by the Virtual Fields Method and the measured deformation fields in static and dynamic.
• Image Processing: Signal (1D) and images (2D) Treatments, Phase Unwrapping, Smoothing, Integration and Derivation in 2D)...
Vibration Analysis and measurement: transient response, modal response, harmonic response Mechanics: Finis Elements, Composites Materials, detection of no-destruct, identification of ma¬terial’s mechanics properties
Programming: Matlab, ANSYS, FORTRAN, AutoCAD
Typography: LATEX, MS Office.
Langues
Mandarin: Maternal
French: Fluency (7 years’ life and study in France)
English: Fluency
Publication
[1] B.Q. Guo, H.M. Xie, J.G. Zhu, H.X. Wang, P.W. Chen, and Q.M. Zhang. Study on the mechanical behavior of adhesive interface by digital image correlation. SCIENCE CHINA Physics, Mechanics & Astronomy, pages 1–7, 2011.
[2] B. Q. Guo, H. M. Xie, Y. J. Li, P. W. Chen, and Q. M. Zhang. Displacement fields denoising and strains extraction by finite element method. Theor. Appl. Mech. Lett., 1(1):011004–1–4, 2011.
[3] A. Giraudeau, F. Pierron, and B. Q. Guo. An alternative to modal analysis for material stiffiness and damping identification from vibrating plates. Journal of Sound and Vibration, 329(10):1653–1672, 2010.
[4] F. Pierron, B. Q. Guo, and R. Rotinat. Identification methodology of the mechanical behaviour of hyperelastic foams using full-field measurements and an inverse method. Mecanique & Industries, 10(1):55–59, 2009.
[5] B. Guo, H. Xie, P. Chen, and Q. Zhang. Creep properties identification of PBX using digital image correlation. In Proceedings of SPIE, volume 7522, page 75222V, 2009.
[6] F. Pierron and B. Guo. Identification of the mechanical behaviour of low density hyperelastic polymeric foams from full-field measurements. Journal of Physics: Conference Series, page 012044 (8 pp.), 2009.
[7] Baoqiao Guo, Alain Giraudeau, Fabrice Pierron, and Stephane Avril. Viscoelastic material properties’ identification using full field measurements on vibrating plates. volume 7375, pages 737565–6. SPIE, 2008.
[8] Baoqiao Guo, Fabrice Pierron, and Rene Rotinat. Identification of low density polyurethane foam properties by dic and the virtual fields method. volume 7375, pages 737554–6. SPIE, 2008.
[9] A. Giraudeau, B. Guo, and F. Pierron. Stiffiness and damping identification from full field measurements on vibrating plates. Experimental Mechanics, 46(6):777–787, 2006.
[10] B. Guo, A. Giraudeau, and F. Pierron. Material properties' identification using full field measurements on vibrating plates. Modern Practice in Stress and Vibration Analysis VI, Proceedings, 5-6:465–472, 2006.
[11] A. Giraudeau, B. Guo, and F. Pierron. Application of the virtual fields method to the identification of material properties using vibrating plates. Structural Dynamics -EURODYN 2005, Vols 1-3, pages 1911–1916, 2005.
[12] A. Giraudeau, B. Guo, and F. Pierron. Experimental application of the virtual fields method to the identification of material properties using vibrating plates. Advances in Experimental Mechanics IV, 3-4:303–308, 2005.
[13] A. Giraudeau, B. Guo, and F. Pierron. Identification of stiffiness and damping material properties from forced vibrating plates. Proceedings of ISMA 2004: International Conference on Noise and Vibration Engineering, Vols 1-8, pages 1299–1312, 2005.
Langues
Mandarin: Maternal
French: Fluency (7 years’ life and study in France)
English: Fluency
Publication
[1] B.Q. Guo, H.M. Xie, J.G. Zhu, H.X. Wang, P.W. Chen, and Q.M. Zhang. Study on the mechanical behavior of adhesive interface by digital image correlation. SCIENCE CHINA Physics, Mechanics & Astronomy, pages 1–7, 2011.
[2] B. Q. Guo, H. M. Xie, Y. J. Li, P. W. Chen, and Q. M. Zhang. Displacement fields denoising and strains extraction by finite element method. Theor. Appl. Mech. Lett., 1(1):011004–1–4, 2011.
[3] A. Giraudeau, F. Pierron, and B. Q. Guo. An alternative to modal analysis for material stiffiness and damping identification from vibrating plates. Journal of Sound and Vibration, 329(10):1653–1672, 2010.
[4] F. Pierron, B. Q. Guo, and R. Rotinat. Identification methodology of the mechanical behaviour of hyperelastic foams using full-field measurements and an inverse method. Mecanique & Industries, 10(1):55–59, 2009.
[5] B. Guo, H. Xie, P. Chen, and Q. Zhang. Creep properties identification of PBX using digital image correlation. In Proceedings of SPIE, volume 7522, page 75222V, 2009.
[6] F. Pierron and B. Guo. Identification of the mechanical behaviour of low density hyperelastic polymeric foams from full-field measurements. Journal of Physics: Conference Series, page 012044 (8 pp.), 2009.
[7] Baoqiao Guo, Alain Giraudeau, Fabrice Pierron, and Stephane Avril. Viscoelastic material properties’ identification using full field measurements on vibrating plates. volume 7375, pages 737565–6. SPIE, 2008.
[8] Baoqiao Guo, Fabrice Pierron, and Rene Rotinat. Identification of low density polyurethane foam properties by dic and the virtual fields method. volume 7375, pages 737554–6. SPIE, 2008.
[9] A. Giraudeau, B. Guo, and F. Pierron. Stiffiness and damping identification from full field measurements on vibrating plates. Experimental Mechanics, 46(6):777–787, 2006.
[10] B. Guo, A. Giraudeau, and F. Pierron. Material properties' identification using full field measurements on vibrating plates. Modern Practice in Stress and Vibration Analysis VI, Proceedings, 5-6:465–472, 2006.
[11] A. Giraudeau, B. Guo, and F. Pierron. Application of the virtual fields method to the identification of material properties using vibrating plates. Structural Dynamics -EURODYN 2005, Vols 1-3, pages 1911–1916, 2005.
[12] A. Giraudeau, B. Guo, and F. Pierron. Experimental application of the virtual fields method to the identification of material properties using vibrating plates. Advances in Experimental Mechanics IV, 3-4:303–308, 2005.
[13] A. Giraudeau, B. Guo, and F. Pierron. Identification of stiffiness and damping material properties from forced vibrating plates. Proceedings of ISMA 2004: International Conference on Noise and Vibration Engineering, Vols 1-8, pages 1299–1312, 2005.