Zhongguo Huang received his Ph.D. in Electrical Engineering, Institute of Automation, Chinese Academy of Science, Beijing, China in 1990. He worked in Post-Doctoral studies Department of Mechanical Engineering, The University of Michigan, Ann Arbor, MI, USA from 1991 to 1993. He is now an Associate Professor at the Department of Mechanical Engineering at the University of Science and Technology Beijing.

His research interests include Metal lightweight manufacturing technology, Material characteristics and forming process of Aerospace, Vehicle structure design and manufacturing technology and Key materials and equipment of new energy.

His research projects include Performance evaluation and mechanism of seamless steel tube and cold rolled sheet for vehicle bridge, hot metal pressure forming process of titanium alloy structural parts, Material and comprehensive performance test of large diameter high pressure cylinder tube, Superplastic forming process of titanium alloy flange with deep cavity, Series products and key technologies of energy equipment, Design of 720 6-Tube hydraulic CNG substation car, Design of 660 8-tube CNG long tube Trailer, Sensitivity evaluation of defects to 3D printing titanium alloy and Application of superplastic forming technology in lightweight design of projectile body structure.

Degrees Earned:

Ph.D., Electrical Engineering, Chinese Academy of Science, Beijing, China,1990.

B.S., Electrical Engineering, Chongqing Institute of Architecture and Engineering, Chongqing, China, 1984.

Prior Positions:

President, Sinomet Technologies Co.,Ltd, USTB, 2001-2007

President, Design and Research Institute Co., Ltd, USTB, 2007-2012

Published Book:

Zhongguo Huang, XuepingRen, Mechanics Principles of Plasticity Forming, Beijing, Metallurgical Industry Press, March, 2008.

Published Papers:

[1]  Shao Z K, Huang Z G, Jin S Y, et al. Influence of Single-Direct and Direct-Reverse SPF on Properties of TC4 Alloy Negative-Angle Parts. Journal of Aeronautical Materials, 2013, 33(1): 1-6.(EI)

[2] Dong H, Li B, Shou B, et al. Performance assessment of jumbo cylinder pipe produced by rotary expanding technology TPCO[C]. Hong Kong, Hong kong: Trans Tech Publications, 2011,p.856-860. (EI)

[3] Huang Z, Jin S, Yuan Q. A study on constitutive equation of industrial Ti-6Al-4V for gas forming process[C]. Shenzhen, China: Trans Tech Publications, 2011,p.1022-1026. (EI)

[4] Dong H, Huang Z, Yuan Q, et al. Research on fatigue test of LZ20Mn2 axle pipe steel[C]. Chongqing, China: Trans Tech Publications, 2011,p.2152-2156. (EI)

[5] Jin S, Huang Z, Shao Z, et al. A study on rotary expanding process of large-diameter hot-rolled seamless gas cylinder with finite element analysis[C]. Dalian, China: Trans Tech Publications, 2011,p.45-51. (EI)

[6] Jin S, Huang Z, Shao Z, et al. A study on the large-diameter seamless gas cylinder dimensional accuracy of rotary expanding process with finite element analysis[C]. Guangzhou, China: Trans Tech Publications, 2011,p.136-142. (EI)

[7] Yuan Q, Lei K, Shao Z, et al. A calculation method of m based on processing map[C]. Chengdu, China: Trans Tech Publications, 2011,p.328-331. (EI)

[8] Shao Z K, Huang Z G, Jin S Y, et al. Thickness optimization of SPF for titanium alloy negative Angle parts[C]. Guangzhou, China: Trans Tech Publications, 2011,p.1395-1402. (EI)

[9] Huang Z G, Dong H L, Yuan Q H, et al. Test analysis on crack propagation rate of axle pipe steel[C]. Shenzhen, China: Trans Tech Publications, 2011,p.1-4. (EI)

[10]  Yuan Q, Jin S, Huang Z, et al. A study on heat treatment effect and mechanism of high-pressure vessel in the wall thickness direction[C]. Shenzhen, China: Trans Tech Publications, 2010,p.1186-1193. (EI)

[11]  Zhang H X, Huang Z G, Yuan Q H, et al. Simulation studies on the flow field of sintering flue gas during vortex collision desulfurization [J]. Journal of University of Science and Technology Beijing. 2010, 32(10): 1333-1339.(EI)

[12]  Shunyao J, Zhongguo H, Honglei D, et al. The Stability Control to the Mechanical Properties of High-pressure Gas Cylinder Industrial Production by Using Stability Indicators[C]. Switzerland: 2010,p.2713-2719. (EI)

[13]  Huang Z, Dong H, Yuan Q, et al. Research on tempering process of LZ20Mn2 seamless pipe for axle[C]. Zhuhai, China: Trans Tech Publications, 2010,p.4491-4496. (EI)

[14]  Huang Z, Dong H, Yuan Q, et al. Research on heat treatment influence factors on high-pressure cylinder steel 30CrMo-M[C]. Zhuhai, China: Trans Tech Publications, 2010,p.771-776. (EI)

[15]  Dong H L, Huang Z G, Yuan Q H, et al. Study on quenching-and-tempering process of XCQ16-1 axle steel. Materials Science and Technology. 2009, 17(4): 462-466.(EI)

[16]  Huang Z G, Li Y F, Yuan Q H, et al. Deformation characteristic and interface microstructure of TA1/Q235 during accumulative roll-bonding[J]. Journal of University of Science and Technology Beijing. 2009, 31(3): 341-346. (EI)

[17]  Huang Z G, Dong H L, Yuan Q H, et al. Microscopic mechanism of XCQ16 and 20Mn2 axle steel fatigue failure [J]. Journal of University of Science and Technology Beijing. 2009, 31(8): 988-994. (EI)

[18]  Huang Z G, Yuan Q H, Yin Y N, et al. Application of the fuzzy comprehensive evaluation to the quality evaluation of automobile surfaces [J]. China Mechanical Engineering. 2008, 19(11): 1369-1373. (EI)

[19]  Hou H L, Huang Z G, Wang Y Q, et al. Microstructure evolution and superplasticity of hydrogenated Ti-6Al-4V titanium alloy [J]. Journal of University of Science and Technology Beijing. 2008, 30(11): 1270-1274. (EI)

[20]  Huang Z G, Liu L L, Yuan Q H, et al. Application of QFD in car body checking fixture design [J]. Computer Integrated Manufacturing Systems. 2007, 13(1): 190-195. (EI)