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Shu Huang
Date:2017-12-13   View:

Name:Shu Huang

Ph.D/AssociateProfessor,Master Supervisor

Address:Room B209 School of Mechanical Engineering

Phone:(86)015896356262

Fax:(86)511-88780219

E-mail:huangshu11@sina.com;huangshu@ujs.edu.cn

Education

2008.09-2012.12 Ph.D., Mechanical engineering, Jiangsu University, China

2005.09-2008.06 M.S., Mechanical engineering, Jiangsu University, China

2000.09-2004.06 B.S., Mechanical engineering, Huaihai institute of technology, China

Professional Experience

2014.011-present Associate Professor, School of Mechanical Engineering, Jiangsu University

2013.04-2017.04 Postdoctoral, Material science and engineering, Jiangsu University

2010.08-2014.10 Lecturer, School of Mechanical Engineering, Jiangsu University

2008.06-2010.07 Assistant, School of Mechanical Engineering, Jiangsu University

Social academic post


Research interests

(1) Advanced laser processing technology and anti-fatigue properties of aviation alloy

Focus on the anti-fatigue manufacturing technology of the key hot end parts in mechanical engineering, investigation of residual stress relaxation behavior and fatigue crack growth properties subjected to laser peening on nickel-based alloys is carried out at elevated temperature. Microstructure evolution induced by laser peening and the effects on residual stress relaxation behavior at elevated temperature are studied, residual stress relaxation model subjected to laser peening and cyclic loading at the elevated temperature is established.

Crack block and fatigue strip in fatigue fracture under differentlaser peening coverage areas

The research can enrich and develop the basic theory of surface modification technologies, furthermore, promote applications of laser peening technology in the field of anti-fatigue manufacturing engineering.

(2) Mechanism study on preventing hydrogen induced cracking and performance control of titanium components strengthened by laser peening

To avoid hydrogen embrittlement failure of key components in ocean engineering equipment under deep-sea environment, the mechanism of preventing hydrogen induced cracking(HIC) and performance control of Ti-6Al-4V alloy subjected to laser peening (LP) are investigated. Effects of residual compressive stress (RCS) induced by super-high strain rate LP on hydrogen solubility and hydrogen diffusion driving force is analyzed; RCS relaxation regulation under different temperatures, pressures and hydrogen concentrations is analyzed. Six sigma method is utilized to analyze the multiple variables during LP.

Hydrogen damage resistance oftitanium alloystrengthening by laser peening (a) before hydrogen charging (b) after hydrogen charging (c) slow tension (d) hydrogen-induced crack nucleation

These research achievements can not only enrich and develop the basic theory of surface modification technology, but also provide theoretical and technological references for anti-HIC of deep-sea components by LP process.

(3) Mechanism study of ultra-short pulse laser transmitted welding of glass

In the application of MEMS products, the packaging of MEMS devices occupies a very important position in the manufacturing process. Main reasons of some limitations in many MEMS chip’s applications attribute to the packaging problems. Glass materials have good insulation, excellent optical permeability and mechanical properties as well as great corrosion resistance and so on .Now glass materials are currently widely used in electrical and electronic, micro-electro-mechanical systems (MEMS), especially in MEMS device packaging.

Typical equipment and specimen of ultra-short pulse laser transmitted welding of glass

Based on the laser transmission welding theories, the mechanism of the interaction between the ultrashort pulse laser and the glass material was studied systematically. The pico-second laser was used to build the experimental platform and the fixture device which is suitable for the welding of glass materials was developed. The scientific experimental design and analysis methods were used to study the effects of process parameters such ad laser power, repetition rate and welding speed on the tensile strength of glass welded joints.

Teaching Courses

(1) Fundamentals of Mechanical Manufacturing Technology

(2) Rapid prototyping technology

(3) Precision and special processing technology

Honors and Awards

(1) Excellent doctoral dissertation of Jiangsu Province (2014)

(2) Excellent master’s dissertation of Jiangsu Province (2009)

Main Research Projects

(1) Investigation of laser peening on the residual stress relaxation model and fatigue crack growth properties of nickel-based alloys at elevated temperature, No.51775252, NSFC, 2018-2021.

(2) Mechanism study on preventing hydrogen induced cracking and performance control of deep-sea titanium components strengthened by laser peening, No.51405204, NSFC, 2015-2017.

(3) Youth Key Teacher Training Project of Jiangsu University, 2016-2020.


Main Scientific Publications

(1) S. Huang,J. Sheng,J.Z. Zhou,J.Z. Lu,X.K. Meng,S.Q. Xu,H.F. Zhang. On the influence of laser peening with different coverage areas on fatigue response and fracture behavior of Ti-6Al-4V alloy.Engineering Fracture Mechanics, 2015,147:72-82. (SCI, IF= 2.024)

(2) S. Huang, J.Z. Zhou, J. Sheng, K.Y. Luo, J.Z. Lu, Z.C. Xu, X.K. Meng, L. Dai, L.D. Zuo, H.Y. Ruan, H.S. Chen. Effects of Laser Peening with Different Coverage Areas on Fatigue Crack Growth Properties of 6061-T6 Aluminum Alloy.International Journal of Fatigue, 2013, 47:292-299. (SCI, IF= 2.162)

(3) S. Huang, J.Z. Zhou, J. Sheng, J.Z. Lu, G.F. Sun, X.K. Meng, L.D. Zuo, H.Y. Ruan, H.S. Chen.Effects of Laser Energy on Fatigue Crack Growth Properties of 6061-T6 Aluminum Alloy Subjected to Multiple Laser Peening.Engineering Fracture Mechanics, 2013, 99:87-100.(SCI, IF= 2.024)

(4) S. Huang,J. Sheng,J.Z. Zhou,Z.W. Wang,H.F. Zhang,S.Q. Xu,J.Z.Lu.Microstructure Characteristics and High-temperature Performance of Laser PeenedIN718 Nickel-based Alloy.Rare metal materials and engineering, 2016, 45(12):3284-3289.(SCI, IF= 0.236)

(5) S. Huang,J.Z. Zhou,J. Sheng, W. Zhu, H. Zhong, Y.F. Mei.Effect of laser shock processing on friction and wear properties of Ti13Nb13Zr alloy.Rare metal materials and engineering, 2014, 43(12): 3154-3158. (SCI, IF= 0.236)

(6) E. A. Boateng,S. Huang*, J. Sheng, G. Yuan, Z.W. Wang, J.Z. Zhou and A.X. Feng. Influence of laser peening on the hydrogen embrittlement resistance of 316L stainless steel.Surface and Coating Technology, 2017, 328:44-53. (SCI, IF= 2.589)

(7) J. Sheng,S. Huang*, J.Z Zhou, Z.W.Wang. Effects of warm laser peening on the elevated temperature tensile properties andfracture behavior of IN718 nickel-based superalloy.Engineering Fracture Mechanics, 2017, 169:99-108. (SCI, IF= 2.024)

(8) J. Sheng,S.Huang*, J.Z.Zhou, J.Z.Lu, S.Q.Xu, H.F.Zhang. Effect of laser peening with different energies on fatigue fracture evolution of 6061-T6 aluminum alloy.Optics & Laser Technology, 2016, 77:169-176.(SCI, IF= 1.879)

(9) J.Z. Zhou,S. Huang*, L.D. Zuo, X.K.Meng, J.Sheng, Q. Tian, Y.H. Han, W.L. Zhu.Effects of Laser Peening on Residual Stresses and Fatigue Crack Growth Properties of Ti-6Al-4Vtitanium alloy.Optics and Lasers in Engineering, 2014, 52:189-194. (SCI, IF= 2.319)

(10) J.Z. Zhou,S. Huang*, J. Sheng, J.Z. Lu, C.D. Wang, K.M. Chen, H.Y. Ruan, H.S. Chen. Effect of Repeated Impacts on Mechanical Properties and Fatigue Fracture Morphologies of 6061-T6 Aluminum Subject to Laser Peening.Materials Science and Engineering A, 2012, 539:360-368. (SCI, IF= 2.647)


Patents

(1) Shu. Huang, Jian-zhjong Zhou, Xiao-dong Yang, etal. A device and method for the reinforcement of laser peening for the hard brittle material.China Patent,No.ZL 201010278889.1, August15, 2012.

(2) Shu Huang, Xing-lu Ji, Jian-zhjong Zhou, etal. Method and apparatus for strengthening of laser peening in the middle path length tube.China Patent,No.ZL 201210456285.0, December11, 2013.

(3) Shu Huang, Li-dang Zuo, Jian-zhjong Zhou, etal. Method and apparatus for strengthening of sheet metal surface by using the photowater complex.China Patent,No.ZL201210456043.1, April09, 2014.

(4) Shu Huang, Xian-kai Meng, Jian-zhjong Zhou, etal. Methods and devices for improving the restraining effect of warm laser peening.China Patent,No.ZL201310197205.9, September10, 2014.

(5) Shu Huang, Yu-hang Han, Jian-zhjong Zhou, etal. Test control method and device of inner layer thickness test of rolling plastic storage tank.China Patent,No.ZL201310196260.6, August05, 2015.

(6) Shu Huang,Yu-feng Mei, Jie.Sheng, etal. Methods to improve the bonding strength of medical magnesium alloy surface.China Patent,No.ZL201410352760.9, August05, 2015.

(7) Shu Huang, Zuo-wei Wang, Jian-zhjong Zhou, etal. A device and method to remove corrosion of inner cavity of rolling mold.China Patent,No.ZL201410773921.1, January18, 2017.

(8) Shu Huang, Zuo-wei Wang, Jie Sheng, etal. The contrast test method and sample clamping device for improving the performance of material anti- micro-dynamic fatigue performance by laser peening.China Patent,No.ZL201510816703.6, August11, 2017.

Plan for Overseas Master & Ph. D

One Master

 
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