WU Yanqing
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Name
WU Yanqing
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Title
WU Yanqing
-
Address
School of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
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Tel
+86-13520786521
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Email
wuyqing@bit.edu.cn
Research Interests
1. Meso-mechanics of heterogeneous energetic materials
2. Numerical techniques and large-scale Finite Element Simulation
3. Micro-scale Testing Techniques for Evaluating Safety and Sensitivity of Explosives
Academic Achievements
1. Kun Yang, Yanqing Wu,*, Fenglei Huang a,*, Ming Li. Numerical simulations of mechanical and ignition-deflagration responses for PBXs under low-to-medium-level velocity impact loading. Journal of Hazardous Materials. In revision. 2017
2. Guo Hong-fu, Wu Yan-qing*, Huang Feng-lei. A hot-spots ignition probability model for low-velocity impacted explosive particles based on the particle size and distribution,Mathematical Problems in Engineering, Vol. 2017, 1-10, 2016
3. Wang X, Wu Y Q*, Huang F, et al. Mesoscale thermal-mechanical analysis of impacted granular and polymer-bonded explosives. Mechanics of Materials, 2016, 99:68-78.
4. Wang X J, Wu Y Q*, Huang F L. Thermal–mechanical–chemical responses of polymer -bonded explosives using a mesoscopic reactive model under impact loading. Journal of Hazardous Materials, 2016, 321:256-267.
5. Bao X W, Wu Y Q*, Wang M Y, et al. Experimental investigations of mechanical and reaction responses for drop-weight impacted energetic particles. Acta Mechanica Sinica, 2016:1-6.
6. Wu Yan-Qing*, Fenglei Huang, Min Zhou. Microscopic modeling of ignition and burning for well-arranged energetic crystals in response to drop-weight impact. Journal of Physics: Conference Series. 500, 052051, 2014
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NameWU Yanqing
-
TitleWU Yanqing
-
AddressSchool of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
-
Tel+86-13520786521
-
Emailwuyqing@bit.edu.cn
Research Interests
1. Meso-mechanics of heterogeneous energetic materials
2. Numerical techniques and large-scale Finite Element Simulation
3. Micro-scale Testing Techniques for Evaluating Safety and Sensitivity of Explosives
Academic Achievements
1. Kun Yang, Yanqing Wu,*, Fenglei Huang a,*, Ming Li. Numerical simulations of mechanical and ignition-deflagration responses for PBXs under low-to-medium-level velocity impact loading. Journal of Hazardous Materials. In revision. 2017
2. Guo Hong-fu, Wu Yan-qing*, Huang Feng-lei. A hot-spots ignition probability model for low-velocity impacted explosive particles based on the particle size and distribution,Mathematical Problems in Engineering, Vol. 2017, 1-10, 2016
3. Wang X, Wu Y Q*, Huang F, et al. Mesoscale thermal-mechanical analysis of impacted granular and polymer-bonded explosives. Mechanics of Materials, 2016, 99:68-78.
4. Wang X J, Wu Y Q*, Huang F L. Thermal–mechanical–chemical responses of polymer -bonded explosives using a mesoscopic reactive model under impact loading. Journal of Hazardous Materials, 2016, 321:256-267.
5. Bao X W, Wu Y Q*, Wang M Y, et al. Experimental investigations of mechanical and reaction responses for drop-weight impacted energetic particles. Acta Mechanica Sinica, 2016:1-6.
6. Wu Yan-Qing*, Fenglei Huang, Min Zhou. Microscopic modeling of ignition and burning for well-arranged energetic crystals in response to drop-weight impact. Journal of Physics: Conference Series. 500, 052051, 2014