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Yang Yang

Editor:王懿鸿Date:2019-09-04ClickTimes:

 

Basic information

Name: Yang Yang

Sex: Female

Nationality: Han

Date of birth: Oct. 1982

Highest degree: Ph. D

Title: Associate professor

E-mail: yangkh@cug.edu.cn

Office: Room 307, No. 2 Teaching Building

Main experiences:

2011.7-presnet: Department of Mechanical Engineering, School of Mechanical Engineering and Electronic Information, China University of Geosciences (Wuhan)

2012.1-2012.12: Enterprise practice in Department of International Trade, CGE Group Wuxi Drilling Tools Co., Ltd.

2004.9-2011.6: Doctor of Engineering (MD-PhD) in Drilling Engineering, School of Engineering, China University of Geosciences (Wuhan)

2008.10-2010.10: Visiting scholar, Bioengineering Materials Research Center, University of Kansas

2000.9-2004.6: Bachelor of Engineering, Exploration Technology and Engineering, School of Engineering, China University of Geosciences (Wuhan)

2002.3-2004.6: Bachelor of Arts in English (Dual degree), Huazhong University of Science and Technology

Main research fields:

Manufacturing technology of diamond rock crusher, solid material mechanics, computational mechanics, computer numerical simulation technology

Courses offered:

Metal Materials and Parts Processing, Technology of Metals, Reliability Design, Engineering Thermodynamics

Journal papers and works:

1. F. Liu, Y. Yang*, B. Pan. Influence of tungsten coating on microstructure and thermal damage of brazed diamondsSurface Engineering, 2019, 35(1), p29-36 (SCI

2. B. Pan, Y. Yang*, Y. Zhang, Extraction of diamond grain topography from diamond tool surface using 3D surface measurement coupled with image analysis, Measurement, 2019, 133, p9-13 (SCI

3. B. Pan, Y. Yang*, Y. Zhang, Q. Zhang. Effects of saccharin and tetramethylammonium bromide on the microstructure and microhardness of thick cobalt electrodeposits, Surface & Coatings Technology, 2017, 329, p49-54 (SCI

4. Y. Yang, A. Misra. Micromechanics based second gradient continuum theory for shear band modeling in cohesive granular materials following damage elasticity, International Journal of Solids and Structures, 2012, 49(18), p2500-2514 (SCI)

5. Y. Yang, W.Y. Ching, A. Misra*. Higher-order continuum theory applied to fracture simulation of nano-scale intergranular glassy film, ASCE: Journal of Nanomechanics and Micromechanics, 2011, 1(2), p60-71 (EI)

6. Y. Yang, A. Misra. Higher-order stress-strain theory for damage modeling implemented in an element-free Galerkin formulation, Computer Modeling in Engineering & Sciences, 2010, 1549(1), p1-36 (SCI)

7. A. Misra, Y. Yang. Micromechanical model for cohesive materials based upon pseudo-granular structure. International Journal of Solids and Structures, 2010, 47(21), p2970-2981 (SCI)

8. Yangyang, Bingsuo Pan. Micromechanics-based numerical simulation of rock fragmentation process induced by static indentation, China Sciencepaper, 2017, 12(9), p1024-1029.

9. Yang Yang, Bingsuo Pan, Yiyuan Zhang. Effects of Glycine on Properties of Electroplated Nickel Coating, Materials Protection, 2017, 50(11), p69-72.

10. Yang Yang Bingsuo Pan. Research on the SOG Continuity Theory of Micromechanics and Strain Softening of Cohesive Materials, China University of Geosciences Press, 2018.10.

Scientific research programs:

1. Youth Program of National Natural Science Foundation of China (51309208): SOG continuity theory based on micromechanics mechanism and the damage mechanism of anisotropic strain softening material, 2014.1-2016.12, PI.

2. Program supported by Doctoral Fund of Ministry of Education of China (20130145120004): Research on SOG continuity theory based on micromechanics mechanism and diamond dynamic rock breaking mechanism, 2014.1-2016.12, PI.

3. Cradle Program of China University of Geosciences (Wuhan) (CUG110820): Research on the fracture mechanism of β-Si3N5 ceramic nanocrystalline glassy film based on Micromechanics, 2014.1-2016.12, PI.

4. Program supported by the Foundation for Youth Scholars in Central Universities: Research on the diamond rock breaking process model based on micromechanism, 2011.12-2013.12, PI.

5. General Program of National Natural Science Foundation of China (41872187): Corrosion and wear behavior and mechanism of hot pressed impregnated diamond bit in brine slurry, 2019.1-2022.12, key participant.

6. Youth Program of National Natural Science Foundation of China (51601173): Research on the electrodiffusion mechanism of alloy/coating interface of solid oxide fuel cell connector, 2017.1-2019.12, key participant.

7. Key Program of Hubei Foundation (2014CFA531): Research on the dynamic characteristics of deep-hole top-drive core drilling machine, 2014.10-2016.12, participant.

8. Laboratory fund (Guangzhou Marine Geological Survey) (2016GMGS-DK155): Column sampling dynamic process analysis and pile effect mechanism of seabed sediment, 2016.6-2017.6, participant.

9. Director fund of National Natural Science Foundation of China (41340048): Modal analysis and control theory of seabed core drilling rig, 2013.12-2014.12, participant.

10. Featured discipline team composed of outstanding young scholars from central universities (CUG120107): Outstanding team of “marine exploration equipment and instruments”, 2012.7-2014.12, participant.

11. General Program of National Natural Science Foundation of China (41272174): Research on the intelligent hydraulic direction control mechanism for coal-bed methane directional drilling, 2013.1-2016.12, participant.

Teaching research papers and programs:

§ Problems and suggestions in the metalworking practice teaching for non-mechanical major, Education Forum, 2017, (51).

§ Industry-university collaborative education program of the Ministry of Educationfaculty training program. Mechanical teacher training from new engineering perspective (201801086034), 2018-2019, participant.

§ Experimental technology research program: Winch heave compensation system based on the principle of constant tension (SJ-201716), 2017.4-2018.4, participant.

§ Teaching research program of Hubei Province: Research and practice of self-adaptive innovation and entrepreneurship of college students in “five-in-one” talent training mode (2013139), 2014.1-2015.12, participant.

Awards:

§ 2017, MOOC course of Metal Materials and Heat Treatment was approved as the national top-quality online open course (Fourth);

§ 2015, Excellence in undergraduates teaching quality evaluation of CUG (top 10%);

§ 2014, Outstanding individual in year-end assessment of CUG;

§ 2014, Selected in Cradle Program of CUG.