BROCHURE
Prof. Zhichao Ma is a Professor,Jilin University,China

Prof. Zhichao Ma

Professor

Organizing Committee

China

Jilin University

BIOGRAPHY

 I am mainly engaged in in situ mechanical testing and bionic materials research. I obtained my BS and Ph. D degrees (ahead of time) from School of Mechanical Sci & Eng, Jilin University, China in 2009 and 2013, respectively. In Sep, 2015, I was recommend as associate professor (exceptional promotion). In June, 2018, I was nominated as professor by President. My interests involve: in situ mechanical properties testing of materials, mechanics of materials at micro/nano scale, multi physical field coupling driving/testing and bionic materials. So far, I have published over 50 research papers in journals indexed by SCI. More than 20 Chinese invention patents have been authorized. Also, 2 US patents and 2 Chinese industrial standards have been authorized. I am currently senior member of Chinese mechanical engineering society, member of International Society of Bionic Engineering. In addition, I am responsible for several scientific research projects, such as National Natural Science Foundation of China, Special Project for Development of National Major Scientific Instruments. Furthermore, I won the Science and Technology Award by Ministry of Education of China (1st Prize, Second author) and Technology Invention Award by Jilin Province (1st Prize, Second author). I was also selected in Young Yangtze River Scholar of the Ministry of Education and Young Elite Scientists Sponsorship by China Science and Technology Association. I also won the Youth Science and Technology Award by China Instruments and Control Society and China Nonferrous Metal Paper Award of Science and Technology.

PUBLICATIONS

  1. Ma, Z. C., *Zhao, H. W., et al. (2019): Effective method to simultaneously release residual stress and promote planarization of surface indentation achieved by secondary indentation. Applied Surface Science, In press.
  2. Ma, Z. C., *Zhao, H. W., et al. (2019): Cyclic stress induced surface nanocrystallization adjacent to indentation edge of Zr-based bulk metallic glass at room temperature. Applied Surface Science, In press.
  3. Ma, Z. C., Zhang, W., *Zhao, H. W., et al. (2019): Enhanced strength and slightly reduced ductility in a high entropy alloy via cold rolling and annealing. Journal of Alloys and Compounds, In press.
  4. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2019): Fatigue device driven by a three degree of freedom tripodal piezoelectric actuator. Review of Scientific Instruments, 90, 036102.
  5. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2019): Static and cyclic mechanical behaviours and fracture mechanisms of Zr-based metallic glass at elevated temperatures. Philosophical Magazine, 7, 835-852.
  6. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2019): Novel crystallization behaviors of Zr-based metallic glass under thermo-mechanical coupled fatigue loading condition. Acta Metallurgica Sinica, Published Online.
  7. Zhou, L. M., M., Ren, S. H., *Ma, Z. C. (2019):Node-based smoothed radial point interpolation method for electromagnetic-thermal coupled analysis. Applied Mathematical Modelling, 78, 841-862.
  8. Zhou, L. M., Li, M., Ma, Z. J., Ren, S. H., Li, X. L., Tang, J. H., *Ma, Z. C. (2019): Steady-state characteristics of the coupled magneto-electro-thermo-elastic multi-physical system based on cell-based smoothed finite element method. Composite Structures, 211, 111-128.
  9. Zhou, L. M., Ren, S. H., Liu, C. Y., *Ma, Z. C. (2019): A valid inhomogeneous cell-based smoothed finite element model for the transient characteristics of functionally graded magneto-electro-elastic structures. Composite Structures, 208, 298-313.
  10. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2018): Evaluation of nanoindentation load-depth curve of MEMS bridge structures by calculating the critical elastic-plastic bending deflections. Applied Surface Science, 434, 1-10.
  11. Zhou, L. M., Ren, S. H., Liu, C. Y., *Ma, Z. C. (2019): A valid inhomogeneous cell-based smoothed finite element model for the transient characteristics of functionally graded magneto-electro-elastic structures. Composite Structures, 208, 298-313.
  12. Liu, C. Y., *Ma, Z. C., Ren. L. Q., et al. (2018): Correction method for mechanical performance testing instrument with Tension–torsion coupling loading. Measurement Science & Technology, Published Online.
  13. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2018): Motor-piezoelectricity coupling driven high temperature fatigue device. Review of Scientific Instruments, 89, 016102.
  14. Liu, C. Y., H.W. Zhao*, Ma, Z. C., et al. (2017): Novel instrument for characterizing comprehensive physical properties under multimechanical loads and multi-physical field coupling conditions. Review of Scientific Instruments, 89, 025112.
  15. Zhou, M.X., Fan, Z.Q., Ma, Z. C., et al. (2017): Effects of Flotage on Immersion Indentation Results of Bone Tissue: An Investigation by Finite Element Analysis, Advances in Materials Science and Engineering, 2017, 4569351.
  16. Zhou, M.X., Fan, Z.Q., Ma, Z. C., et al. (2017): Design and Experimental Research of a Novel Stick-Slip Type Piezoelectric Actuator, Micromachines, 8, 150.
  17. Zhong, Y. X., Zhao, H. W., Ma, Z. C., et al. (2017): A study on the effect of double-tip inclined angle on micro-scratching process using smooth particle hydrodynamic method, Advances in Mechanical Engineering. 9, 1-7.
  18. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2016): Elastic-plastic bending properties of an AZ31B magnesium alloy based on persistent tensile preloads. Journal of Alloys and Compounds, 708 (2017) 594-599
  19. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2016): Thermo-mechanical coupled in situ fatigue device driven by piezoelectric actuator. Precision Engineering, 46, 349-359.
  20. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2016): Fracture criterion on basis of uniformity of plastic work of polycrystalline ductile materials under various stress states. Acta Mechanica, 227, 2053-2059.
  21. Zhao, H. W., Zhong, Y. X., *Ma, Z. C. (2016): Effects of indentation depth on micro hardness and scratch behavior. Journal of Alloys and Compounds, 680, 105-108.
  22. Sun, X. D., *Zhao, H. W., Yu, Y., Zhang, S. Z., Ma, Z. C., et al. (2016): Variations of mechanical property of out circumferential lamellae in cortical bone. AIP Advances, 6, 115116.
  23. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2016): Measurement error of Young’s modulus considering the gravity and thermal expansion of thin films. Measurement Science & Technology, 27, 127001.
  24. Hou, P. L., *Zhao, H. W., Ma, Z. C., et al. (2016): Influence of punch radius on elastic modulus of three-point bending tests. Advances in Mechanical Engineering. 8, 1-8.
  25. Ma, Z. C., *Zhao, H. W., et al. (2016): Method for determining of true stress of cross-shaped specimens subjected to biaxial tensile loads. Instruments and Experimental Techniques, 59, 287-293.
  26. Ma, Z. C., *Zhao, H. W., Ren. L. Q., et al. (2015): Evaluation of equivalent accumulation area of internal defects based on statistical law of yield loads. Journal of Alloys and Compounds, 649, 500-504.
  27. Ma, Z. C., *Zhao, H. W., et al. (2015): Deformation behavior of micro-indentation defects under uniaxial and biaxial loads. Review of Scientific Instruments, 86, 095112.
  28. Ma, Z. C., *Zhao, H. W., et al. (2015): A novel tensile device for in situ scanning electron microscope mechanical testing. Experimental Techniques, 39, 3-11.
  29. Ma, Z. C., *Zhao, H. W., et al. (2015): Modular correction method of bending elastic modulus based on sliding behavior of contact point. Measurement Science & Technology, 26, 087001.
  30. Ma, Z. C., *Zhao, H. W., et al. (2015): Critical Fracture Behavior of a Cu/Al Composite Laminate via the Observation of Scanning Electron Microscope. Materials Transactions, 56, 813-818.
  31. Ma, Z. C., *Zhao, H. W., et al. (2015): Prediction Method of Low Cyclic Stress-Strain Curve of Structural Materials. Materials Transactions, 56, 1067-1071.
  32. Ma, Z. C., *Zhao, H. W., et al. (2015): Effects of zinc on the static and dynamic mechanical properties of copper-zinc alloy. Journal of Central South University, 22, 2440-2445.
  33. Li, J. P., Zhao, H. W., Qu, X. T., Qu, H., Zhou, X. Q., Fan, Z. Q., Ma, Z. C. et al. (2015): Development of a compact 2-DOF precision piezoelectric positioning platform based on inchworm principle. Sensors and Actuators A, 222, 87-95.
  34. Ma, Z. C., *Zhao, H. W., et al. (2014): Influences of tensile pre-strain and bending pre-deflection on bending and tensile behaviors of an extruded AZ31B magnesium alloy. Materials & Design, 64, 566-572.
  35. Ma, Z. C., *Zhao, H. W., et al. (2014): Decomposition method based on a modified Arcan fixture and its application in an in situ combined load tester. Measurement Science & Technology, (2014) 25, 127001.
  36. Ma, Z. C., *Zhao, H. W., et al. (2014): Effects of 2D misalignment on tensile results and corresponding correction methods to obtain the true tress-train curve. Measurement Science & Technology, 25, 115011
  37. Zhang, L., *Zhao, H. W., Ma, Z. C., et al. (2014): Molecular dynamics simulation of linearly varying cutting depth of single point diamond turning on Cu (111). International Journal of Nanomanufacturing, 10, 33-357.
  38. Zhang, L., *Zhao, H. W., Yang, Y. H., Huang, H., Ma, Z. C., et al. (2014): Evaluation of Repeated Single Point Diamond Turning on the Deformation Behavior of Monocrystalline Silicon via Molecular Dynamic Simulations. Applied Physics A, 116, 141-150.
  39. Zhang, L., *Zhao, H. W., Guo, W. C., Ma, Z. C., et al. (2014): Quasicontinuum Analysis of the Effect of Tool Geometry on Nanometric Cutting of Single Crystal Copper. Optik, 125, 682-687.
  40. Ma, Z. C., *Zhao, H. W., et al. (2013): Novel in situ device for investigating the tensile and fatigue behaviors of bulk materials. Review of Scientific Instruments, 84, 045104.
  41. Ma, Z. C., *Zhao, H. W., et al. (2013): Note: Investigation on the influences of gripping methods on elastic modulus by a miniature tensile device and in situ verification. Review of Scientific Instruments, 84, 066102.
  42. Ma, Z. C., *Zhao, H. W., et al. (2013): Novel correction methods on a miniature tensile device based on a modular non-standard layout. Measurement Science &Technology, 24, 085901.
  43. Zhang, L., *Zhao, H. W., Huang, H., Ma, Z. C., et al. (2013): The evolution of machined-induced surface of single crystal FCC copper via nanoindentation. Nanoscale Research Letters, 8, 211.
  44. Huang, H., *Zhao, H. W., Fan, Z. Q., Zhang, H., Ma, Z. C., et al. (2013): Analysis and experiments of a novel and compact 3-DOF precision positioning platform. Journal of Mechanical Science and Technology, 27, 1-11.
  45. Zhang, L., *Zhao, H. W., Ma, Z. C., et al. (2013): A Study on Size Effect of Indenter in Nanoindentation via Molecular Dynamics Simulation. Key Engineering Materials, 562-565, 802-808.
  46. Ma, Z. C., *Zhao, H. W., et al. (2012): A miniaturized in situ tensile platform under microscope. Telkomnika, 10, 524-530.
  47. Zhang, L., *Zhao, H. W., Ma, Z. C., et al. (2012): A study on phase transformation of monocrystalline silicon due to ultraprecision polishing by molecular dynamics simulation. AIP ADVANCES, 2, 042116.
  48. Huang, H., *Zhao, H. W., Ma, Z. C., et al. (2012): Design and analysis of the precision-driven unit for nanoindentation and scratch test. Journal of Manufacturing Systems, 31, 76-81.
  49. Shi, C. L., *Zhao, H. W., Huang, H., Wan, S. G., Ma Z. C., et al. (2013): Effects of probe tilt on nanoscratch results: An investigation by finite element analysis, Tribology International, 60, 64-69.
  50. Huang, H., *Zhao, H. W., Zhang, Z. Y., Yang, Z. J., Ma, Z. C. (2012): Influences of Sample Preparation on Nanoindentation Behavior of a Zr-Based Bulk Metallic Glass, Materials, 5, 1033-1039.
  51. Huang, H., *Zhao, H. W., Yang, Z. J., Mi, J., Fan, Z. Q, Wan, S. G, Shi, C. L., Ma, Z. C. (2012): A novel driving principle by means of the parasitic motion of the microgripper and its preliminary application in the design of the linear actuator, Review of Scientific Instruments , 83, 055002.
  52. Huang, Hu., *Zhao, H. W., Mi, J., Yang, J., Wan, S. G., Xu, L. X., Ma, Z. C. (2012): A novel and compact nanoindentation device for in situ nanoindentation tests inside the scanning electron microscope, AIP ADVANCES , 2, 012104.
  53. Huang, H., *Zhao, H. W., Yang, Z. H., Fan, Z. Q., Wan, S. G, Shi, C. L., Ma, Z. C. (2012): Design and Analysis of a Compact Precision Positioning Platform Integrating Strain Gauges and the Piezoactuator, Sensors , 12, 9697-9710.
  54. Huang, H., *Zhao, H. W., Mi, J., Yang, J., Wan, S. G., Yang, Z. J., Yan, J. W., Ma, Z. C. et al. (2011): Experimental research on a modular miniaturization nanoindentation device, Review of Scientific Instruments , 82(9), 095101.
  55. Ma, Z. C., *Ren. L. Q., et al. (2018): Miniaturized piezoelectric driven fatigue device inside SEM. Academic Conference on measurement control and Metrology Technology at Guangzhou, China, September 2018.
  56. Ma, Z. C., *Zhao, H. W., et al. (2012): Calibration methods based on stress-strain curve for a novel tensile platform inside SEM. Proc. 10th Int. Conf. on Frontiers of Design and Manufacturing at Chongqing, China, July 2012.
  57. Ma, Z. C., *Zhao, H. W., et al. (2012): Analysis and experiment of a novel miniature driven unit for in situ fatigue test based on tensile preload. Proc. 10th Int. Conf. on Frontiers of Design and Manufacturing at Chongqing, China, July 2012.
  58. Huang, H., Shi, C. L., *Zhao, H. W., Ma, Z. C. (2012): An Integrated Nanoindentation Module: Design and Experiments. Proc. 10th Int. Conf. on Frontiers of Design and Manufacturing at Chongqing, China, July 2012.
  59. Zhang, L., *Zhao, H. W., Huang, H., Ma, Z. C., (2012): Effects of the Deformation of Indenter in Nanoindentation–Molecular Dynamics Simulation. Proc. 10th Int. Conf. on Frontiers of Design and Manufacturing at Chongqing, China, July 2012.
  60. Huang, H., *Zhao, H. W., Ma, Z. C., et al. (2011): Development of a novel nanoindentation device for in situ test in SEM, 2nd Nano today conference at Hawaii USA, 2011.
  61. Ma, Z. C., *Zhao, H. W., et al. (2011): In situ tensile test platform design and experimental research under microscopes. 9th National Doctoral Student Conference at Changsha, China, September 2011.
  62. Ma, Z. C., Hu, L. L., *Zhao, H. W., et al. (2010): Theoretical and experimental research on machine tool servo system for ultra-precision position compensation on CNC lathe. Proceedings of SPIE, (2010) 7544.
  63. Ma, Z. C., *Zhao, H. W., Ren, L. Q. (2017): Motor-piezoelectricity coupling driven high temperature fatigue device based on adjustable monotonic and cyclic loading. 2017 Development Forum of test machine and Test Technology. 12-21.
  1. Patents
  1. Ma, Z. C.; Zhao, H. W., et al.: In situ mechanical testing method and system for materials subjected to static and dynamic load spectrum. U. S. patent, WO2018006504
  2. Ma, Z. C.; Zhao, H. W., et al.: Macroscopic/microscopic rotating driving platform based on biomimetic tentacle and thermal expansion. (Authorized Chinese invention patent, Patent No 201610279674.9)
  3. Ma, Z. C.; Zhao, H. W., et al.: Fatigue performance testing device of microstructure under combined stresses and high temperature. (Authorized Chinese invention patent, Patent No 201520070031.4)
  4. Ma, Z. C.; et al.: Flexible driving bionic massage manipulator based on pneumatic artificial muscle. Submitted as: Chinese invention patent (Application No 201810181576.0, application date 06.03.2018)
  5. Ma, Z. C.; et al.: Electromagnetic experimental device for measuring impact mechanical properties of biomaterials. Submitted as: Chinese invention patent (Application No 201810181474.9, application date 06.03.2018)
  6. Ma, Z. C.; et al.: Electromechanical thermal coupling stress corrosion in-situ fatigue test device. Submitted as: Chinese invention patent (Application No 201810077054.6, application date 20.01.2018)
  7. Ma, Z. C.; et al.: Piezoelectric driven three jaw bionic micro size clamping mechanism based on flexure hinge. Submitted as: Chinese invention patent (Application No 201710733966.X, application date 24.08.2017)
  8. Ma, Z. C.; et al.: Multi stage static and dynamic coupling mechanical loading device for high frequency fatigue test. Submitted as: Chinese invention patent (Application No 201710734208.X, application date 24.08.2017)
  9. Ma, Z. C.; et al.: High temperature heating chamber for in-situ optical monitoring and synchrotron radiation. Submitted as: Chinese invention patent (Application No 201710559704.6, application date 11.07.2017)
  10. Ma, Z. C.; et al.: Bionic construction method of high entropy alloy artificial joint based on in-situ test. Submitted as: Chinese invention patent (Application No 201710559630.6, application date 11.07.2017)
  11. Ma, Z. C.; et al.: Calibration method of micro bridge indentation load depth curve for MEMS. Submitted as: Chinese invention patent (Application No 201610914688.3, application date 15.03.2017)
  12. Ma, Z. C.; et al.: In situ testing system and method for mechanical properties of materials under static and dynamic load spectrum. Submitted as: Chinese invention patent (Application No 201610533810.2, application date 08.07.2016)
  13. Qian, Q. M.; Gao, Y. X.; Ma, Z. C.; et al.: Automatic dispensing device on basis of macro/micro driving and accuracy control. Submitted as: Chinese invention patent (Application No 201610271551.0, application date 29.04.2016)
  14. Zhao, H. W.; Liu, C. Y.; Ma, Z. C.; et al.: In situ testing instrument for testing mechanical-electrical-magnetic coupling properties of materials under combined loads. U. S. patent, WO201710736
  15. Dong, J. S.; Zhou, Y. C.; Ma, Z. C.; et al.: Miniature and precise nanoindentation and nanoscratch testing device. Submitted as: Chinese invention patent (Application No 201520556793.5, application date 29.07.2015)
  16. Zhao, H. W.; Shi, C. L.; Liu, H. D,; Lu, S.; Huang, H.; Tian, Y.; Ma, Z. C.; et al. (2015): Precise in situ torsional platform for materials’ performance testing. (Authorized Chinese invention patent, Patent No 201310172164.8)
  17. Zhao, H. W.; Cheng, H. B.; Shao, M. K,; Zhang, P.; Ma, Z. C.; et al. (2015): In situ three-point bending platform for materials’ performance testing on basis of adjustable environment temperature. (Authorized Chinese invention patent, Patent No 201310344421.1)
  18. Li, H. L.; Zhao, H. W.; Ma, Z. C.; et al. (2015): A kind of testing instrument of materials’ properties. (Authorized Chinese invention patent, Patent No 201310381388.X)
  19. Ma, Z. C.; Zhao, H. W., et al. (2015): Fatigue performance testing device of microstructure under combined stresses and high temperature. (Authorized Chinese invention patent, Patent No 201520070031.4)
  20. Ma, Z. C.; Zhao, H. W., et al. (2015): In situ static and dynamic performance biaxial testing platform under service temperature. (Authorized Chinese patent for utility model, Patent No 201420790732.0)
  21. Ma, Z. C.; Zhao, H. W., et al. (2015): Machining equipment of aspherical concave lens based on adjustable curvature radius. (Authorized Chinese invention patent, Patent No 201420790777.8)
  22. Ma, Z. C.; Zhao, H. W., et al. (2014): Fatigue mechanical performance testing device of materials driven by piezoelectric actuator. (Authorized Chinese invention patent, Patent No 201210426539.4)
  23. Zhao, H. W.; Li, J. P.; Ren, L. Q.; Qu, H.; Ma, Z. C.; et al. (2014): Bionic multi-degrees of freedom actuator at micro/nano scale under microscope. (Authorized Chinese invention patent, Patent No 201210226883.9)
  24. Zhao, H. W.; Ren, L. Q.; Li, J. P.; Huang, H.; Zhang, P. F.; Hu, X. L.; Cheng, H. B.; Fang, D. N.; Ma, Z. C.; et al.: Micromechanical performance in situ test instrument for multi-load and multi-physical field coupling material. Submitted as: Euro and U. S. patent (NO PTC/CN2014/072805, application date 03.03.2014)
  25. Zhao, H. W.; Cheng, H. B.; Ma, Z. C.; et al. (2014): Miniature mechanical properties testing device based on tensile-bending combined loading mode. (Authorized Chinese invention patent, Patent No 201210152073.3)
  26. Zhao, H. W.; Ma, Z. C.; et al. (2013): Cross-scale in situ combined loading testing device at micro/nano scale. (Authorized Chinese invention patent, Patent No 201110109253.9)
  27. Zhao, H. W.; Ma, Z. C.; et al. (2013): Material mechanical properties testing device on basis on tensile/compressive and bending combined loading under microscope. (Authorized Chinese invention patent, Patent No 201110351382.9)
  28. Zhao, H. W.; Ma, Z. C.; et al. (2013): In situ high-frequency fatigue mechanical properties testing device based on tensile/compressive mode under scanning electron microscope. (Authorized Chinese invention patent, Patent No 201110305113.9)
  29. Zhao, H. W.; Ma, Z. C.; et al. (2013): In situ torsional mechanical properties testing device at micro-radian scale under scanning electron microscope. (Authorized Chinese invention patent, Patent No 201110305111.X)
  30. Zhao, H. W.; Ma, Z. C.; et al. (2013): In situ tensile/compressive testing device based on quasi-state loading under scanning electron microscope. (Authorized Chinese invention patent, Patent No 201110305112.4)
  31. Zhao, H. W.; Hu, X. L.; Ma, Z. C.; et al. (2013): Cross-scale in situ three-point bending testing device at micro/nano scale. (Authorized Chinese invention patent, Patent No 201110172197.3)
  32. Zhao, H. W.; Ma, Z. C.; et al. (2013): Biaxial tensile/compressive mechanical testing device under scanning electron microscope. (Authorized Chinese patent for utility model, Patent No 201220152042.3)
  33. Zhao, H. W.; Yuan, Y. K.; Li, S.; Zou, Q.; Ma, Z. C.; et al. (2013): In situ nanoindentation device on basis of adjustable tensile and bending preloads. (Authorized Chinese invention patent, Patent No 201310235996.X)
  34. Zhao, H. W.; Huang, H.; Yuan, Y. K.; Mi, J.; Yang, J.; Wan, S. G.; Ma, Z. C.; et al. (2013): Miniature nanoindentation testing device. (Authorized Chinese invention patent, Patent No 201110097964.9)
  35. Zhao, H. W.; Huang, H.; Shi, C. L.; Hu, L. L.; Yang, J.; Wan, S. G.; Ma, Z. C.; et al. (2013): In situ nanoindentation testing device at micro/nano scale on basis of double displacement detection. (Authorized Chinese invention patent, Patent No 201110108995.X)
  36. Zhao, H. W.; Zhang, L.; Shi, C. L.; Hu, X. L.; Ma, Z. C.; et al. (2013): Cross-scale in situ tensile/compressive testing device at micro/nano scale under microscope driven by hydraulic actuator. (Authorized Chinese invention patent, Patent No 201110353413.4)
  37. Zhao, H. W.; Zhang, L.; Huang, Hu.; Hu, X. L.; Shi, C. L.; Ma, Z. C.; et al. (2013): Cross-scale in situ three/four point testing device at micro/nano scale under microscope. (Authorized Chinese invention patent, Patent No 201110353825.8)
  38. Zhao, H. W.; Ma, Z. C.; et al. (2012): Mechanical testing device of materials on basis of combined loading mode driven by hydraulic actuator. (Authorized Chinese patent for utility model, Patent No 201220055669.7)
  39. Zhao, H. W.; Ma, Z. C.; et al. (2012): Cross-scale in situ tensile/ compressive testing device at micro/nano scale. (Authorized Chinese invention patent, Patent No 201110082328.9)
  40. Zhao, H. W.; Ma, Z. C.; et al. (2011): In situ tensile/compressive testing device under scanning electron microscope driven by hydraulic actuator. (Authorized Chinese patent for utility model, Patent No 201120513835.9)
  41. Zhao, H. W.; Ma, Z. C.; et al. (2011): Servo compensation drive system of cutting tool at micro/nano level. (Authorized Chinese patent for utility model, Patent No 201220144470.1)

EDUCATION

  • 2009/09-2013/12, School of Mechanical Sci & Eng, Jilin University, Doctoral Student

            (Graduate in advance)

  • 2005/09-2009/07, School of Mechanical Sci & Eng, Jilin University, Undergraduate Student

RESEARCH INTEREST

  • In situ Mechanical Testing Instruments
  • Mechanics of Materials at Micro/Nano scale
  • Multi Physical Field Coupling Driving/Testing
  • Bionic Design/Fabrication

HONORS AND AWARDS

  • Young Yangtze River Scholar of the Ministry of Education, 2018
  • Science and Technology Award by Ministry of Education of China, 1st Prize, 2018, Second author
  • Young Elite Scientists Sponsorship by China Science and Technology Association, 2017
  • Youth Science and Technology Award by China Instruments and Control Society, 2017
  • Technology Invention Award by Jilin Province, 1st Prize, 2016, Second author
  • Candidate of “Outstanding Young Science Foundation of China” of Jilin University, 2016
  • China Nonferrous Metal Paper Award of Science and Technology, 2015, First author
  • Natural Science Academic Achievement of Jilin Province, China, 2015, First author
  • Outstanding Postdoctoral Fellow of Jilin University, 2015
  • Outstanding Doctoral Dissertation of Jilin University, 2014
  • National Scholarship for Doctoral Student, 2012 and 2013
  • National Student Competition of Academic Science and Technology Works, 2011, First author
  • Outstanding Paper Award of National Doctoral Student Conference, 2011, First author

COLLABORATIONS

  • Member of International Society of Bionic Engineering
  • Senior Member of Chinese Mechanical Engineering Society
  • Invited Reviewer of National Natural Science Foundation of China
  • Senior Member of Nonferrous Metals Society of China
  • Member of Youth Committee, China Instruments and Control Society
  • Council member of Jilin Provincial Society of Additional Materials Manufacturing

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