Mo Shuai 莫帅

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Curriculum Vitae

Mo Shuai, Associate Professor/Master's Tutor/PhD

Basic Information:

Title: Associate Professor / Master's Tutor / PhD

Department: Tiangong University, Department of Mechanical Design

Email: moshuai2010@163.com

Mobile: +8613820958169

Wechat: 13820958169

Research Interests:

(1) Precision Gearbox for Intelligent Equipment / Robot

(2) Electromechanical Drive, Drive and Control Integrated Power Module / Rudder

(3) Micro Transmission System for Hi-Tech Medical Equipment

(4) Mechanical System Dynamics and Equipment Optimization Design

Educational Background:

Oct. 2015-Jan. 2016Tokyo Institute of TechnologyResearch Fellow

Jul. 2015 -Sep. 2015Israel Institute of TechnologyResearch Fellow

Sep. 2013-Jul. 2016Beihang University(BUAA)    PhD Candidate

Work Experiences:

Jul. 2016 – PresentTiangong University(TGU)

Master's Tutor (Selected as Young Elite Scientists Sponsorship Program by CAST)

Apr. 2017 – Apr. 2019Tianjin Zhongde Transmission Co., Ltd. Tianjin Enterprise Technology

Special Agent

Jan. 2013 – Sep. 2013Tianjin Wind Power Transmission Technology Engineering Research Center

R & D Engineer,

Aug. 2011 – Jun. 2012SEW-Industrial Reducer (Tianjin) Co., Ltd.

R & D Engineer

Publications:

  1. Mo Shuai, Zhang Ting. Analytical Investigation on Load Sharing Characteristics of Herringbone Planetary Gear Train with Flexible Support and Floating Sun Gear [J]. Mechanism and Machine Theory, 2019. (SCI, EI)

  2. Mo Shuai, Zhang Yidu, Wu Qiong. Research on Multiple-split Load Sharing of Two-Stage Star Gearing System in Consideration of Displacement Compatibility[J]. Mechanism and Machine Theory, 2015, 88(1): 1-15. (SCI, EI)

  3. Mo Shuai, Zhang Yidu, Wu Qiong. Research on Natural Characteristics of Double-Helical Star Gearing System for GTF Aero-Engine[J]. Mechanism and Machine Theory, 2016, 106(12): 166-189. (SCI, EI)

  4. Mo Shuai, Zhang Yidu, Wu Qiong, Shigeki Matsumura, Haruo Houjoh. Load Sharing Behavior of Wind Turbine Gearbox in Consideration of Multiple-errors[J]. Renewable Energy, 2016, 97(6): 481-491. (SCI, EI)

  5. Mo Shuai, Zhang Yidu. Spiral Bevel Gear True Tooth Surface Precise Modeling and Experiments Studies Based on Machining Adjustment Parameters[J]. Journal of Mechanical Engineering Science, 2015, 229(14): 2524-2533. (SCI, EI)

  6. Mo Shuai, Ma Shuai, Jin Guoguang, Design principle and modeling method of asymmetric involute internal helical gears[J]. Journal of Mechanical Engineering Science, 2019, 233(1) 244-255 (SCI, EI)   

  7. Mo Shuai, Ma Shuai. Research on composite bending stress of asymmetric gear in consideration of friction [J]. Journal of Mechanical Engineering Science, 2019, 233(8) 2939-2955 (SCI, EI)

  8. Mo Shuai, Zhang Yidu. Digital true tooth surface modelling method of spiral bevel gear[J]. Mechanika, 2015, 21(2): 141-147. (SCI, EI)

  9. Mo Shuai, Feng Zhanyong. Research on tribological characteristics of bevel gear after shot blasting based on 85-pellets model[J]. Journal of Engineering Tribology, 2019, 233(7) 1074-1089. (SCI, EI)

  10. Mo Shuai, Ma Shuai, Jin Guoguang. Research on Multiple-split Load Sharing Characteristics of 2-Stage External Meshing Star Gear System in Consideration of Displacement Compatibility[J]. Mathematical Problems in Engineering, 2017, 12(27): 1-8. (SCI, EI)

  11. Mo Shuai, Zhang Ting. Dynamic Characteristics and Load Sharing of Herringbone Wind Power Gearbox[J]. Mathematical Problems in Engineering, doi.org/10.1155/2018/7251645 (SCI, EI)

  12. Mo Shuai, Zhang Yidu, Wu Qiong, Wang Feiming, Shigeki Matsumura, Haruo Houjoh. Load Sharing Behavior of Star Gearing Reducer for Geared Turbofan Engine[J]. Chinese Journal of Mechanical Engineering, 2017, 30(4): 796-803. (SCI, EI) (Cover Paper of Chinese Journal of Mechanical Engineering)

  13. Shuai Mo, Ting Zhang. Elastohydrodynamic Lubrication Characteristics of Spiral Bevel Gear Subjected to Shot Peening Treatment[J]. Mathematical Problems in Engineering, vol. 2018, Article ID 3043712, 12 pages, 2018. doi.org/10.1155/2018/3043712. (SCI, EI)

  14. Shuai Mo, Shengping Zhu. Lubrication characteristics of gear after shot peening base on 25-pellet model[J]. Advances in Mechanical Engineering, 2018, 10(7):1–13. (SCI, EI)

  15. Shuai Mo, Shengping Zhu. Research on the Influence Mechanism of Multi-coupling Error on Load sharing characteristics of Herringbone Gear Planetary Transmission System[J]. Journal of Multi-body Dynamics, 2019, doi.org/10.1177/1464419319848175. (SCI, EI)

  16. Shuai Mo, Zhongxiang Yue. Analytical investigation on load-sharing characteristics for multi-power face gear split flow system[J]. Journal of Mechanical Engineering Science, 2019, doi.org/10.1177/0954406219876954. (SCI, EI)

  17. Shuai Mo, Shuai Ma. Research on Dynamic Load-sharing Characteristics of Two-stage Asymmetric Star Gear System[J]. IEEE Access, 2019, DOI: 10.1109/ACCESS.2019.2937940. (SCI, EI)

  18. Shuai Mo, Jiabei Gong. Precise Modeling of Complex Tooth Surface Microtopography and Multi-degree of Freedom Nonlinear Friction Dynamics for High Performance Face Gear [J]. Science Progress, 2019, DOI: 10.1177/0036850419881078. (SCI, EI)

  19. Mo Shuai, Zhang Yidu, Wu Qiong. Load Sharing Characteristics of RV Transmission Mechanism in Robot[J]. Mechanisms and Machine Science, 2016, 36(1): 977-987. (EI)

  20. Mo Shuai, Zhang Yidu, Wu Qiong,Wang Feiming. Research on load sharing mechanism of star gear trains for GTF engine[J].Journal of Aerospace Power, 2016, 31(3): 763-768. (EI)

  21. Mo Shuai, Zhang Yidu, Wu Qiong,Wang Feiming. Study on Multiple-split Load Sharing of 2-Stage Star Gearing System Based on Gears Displacement Compatibility[J]. Advanced Engineering Sciences, 2015, 47(4): 175-180. (EI)

  22. Mo Shuai, Yue Zongxiang. Analytical Investigation on Load Sharing Characteristics for Face Gear Split Flow System[J]. Journal of Huazhong University of Science and Technology (Natural Science Edition), 2019, Accepted. (EI)

  23. Mo Shuai, Feng Zhanyong. Experimental Research on Light Load Friction Torque and Grease Injection Control of Tapered Roller Bearings for New Energy Vehicles[J]. Journal of Machine Design, 2019, Accepted.(PKUEAS)

  24. Mo Shuai, Gong Jiabei. Experimental Study on Influence of Fitting Accuracy for Tapered Roller Bearing on Temperature Rise Characteristic[J]. Journal of Mechanical Transmission, 2019, Accepted.(PKUEAS)

  25. Mo Shuai, Li Zhenliang, Li Ya, Yu Jinze. Concurrent Tolerance Optimization Design Based on Time Value of Money[J]. Journal of Machine Design, 2011, 28(11): 85-89. (PKUEAS)

  26. Mo Shuai, Li Zhenliang, Li Ya, Jiang Xiangzheng. Design and research of CVT based on virtual prototype technology [J]. Machinery Design & Manufacture, 2012, 3(3): 12-14. (PKUEAS)

  27. Mo Shuai, Li Zhenliang, Li Ya, Xu Wei. Study on the Equivalent Friction Coefficient of Wide V-Belt CVT[J]. Journal of Mechanical Transmission, 2012, 36(6): 5-7. (PKUEAS)

  28. Mo Shuai, Li Zhenliang, Li Ya, Xu Wei. Research on Axial Pressure in Wide V-belt Continuously Variable Transmission [J], Machinery Design & Manufacture, 2012, 09(09): 120-122. (PKUEAS)

Projects:

  1. National Natural Science Foundation of China (NO. 51805368): Research on design method and load sharing characteristics of compound planetary asymmetric gear speed-increasing transmission system; Jan. 2019-Dec. 2021; funding: ¥296,000, Host

  2. China Science and Technology Association Youth Talent Support Project (NO. 2018QNRC001): precision mechanical transmission technology;Jan. 2019 to Dec. 2021; funding: ¥450,000, Host

  3. Tianjin Youth Talent Support Project (NO. QT2018028): precision mechanical transmission technology;Jan. 2019 to Dec. 2021; funding: ¥450,000, Host

  4. China Textile Industry Federation Applied Basic Scientific Research Project (NO. J201806): Optimal design of ultra-high-speed spindle structure and research on the mechanism of vibration and noise reduction;May 2018 to Oct. 2022; funding: ¥400,000, Host

  5. Tianjin Natural Science Foundation (NO. 17JCQNJC04300): Research on design method and dynamic characteristics of asymmetric compound planetary wind power transmission system;Apr. 2017-Mar. 2020; funding: ¥60,000, Host

  6. Tianjin Municipal Education Commission Scientific Research Project (NO. 2017KJ083): Study on dynamic characteristics of high-speed heavy-duty herringbone star drive system;Oct. 2017-Oct. 2020; funding: ¥60,000, Host

  7. Huazhong University of Science and Technology—State Key Laboratory of Material Forming and Mold Technology Open Fund (NO. P2019-022): Research on key technologies for near-net-shape forming of high-performance aeronautical surface gears;Jun. 2018- Jun. 2020; funding: ¥50,000, Host

  8. Chongqing University—Open Fundattion of State Key Laboratory of Mechanical Transmission (NO. SKLMT-KFKT-201616): Study on the mechanism of power shunt uniformity of herringbone star drive system;Jan. 2017-Jan. 2019; Funding: ¥50,000, Host

  9. Qingyan New Energy Vehicle Engineering Center (Xiangyang) Co., Ltd.-horizontal project of the enterprise: research on non-orthogonal gear design method and manufacturing technology (NO. WTYF-20181030);Oct. 2018-Oct. 2020 10 Month; funding: ¥216,000, Host

  10. Shenzhen Hefa Gear Machinery Co., Ltd.—Enterprise horizontal project: Research on key technologies of high-end equipment precision timing pulleys;Sep. 2019-Sep. 2020; funding: ¥100,000, Host

  11. Tianjin University of Technology Talent Introduction Startup Fund (NO. 1090030701): Research on design method of high-strength asymmetric planetary transmission system;Oct. 2016-Oct. 2018; funding: ¥250,000, Host

  12. Doctoral Innovation Fund of Beijing University of Aeronautics and Astronautics (NO. BUAA-BSCXJJ-2015043): Research on the characteristics of aero-engine radial gear drive system load;May 2015-May 2016; funding: ¥60,000, Host

  13. National Natural Science Foundation of China (NO. U1733108): Research on sensorless fault feature extraction and diagnosis technology for planetary gearboxes for helicopters;Jan. 2018-Dec. 2020; funding: ¥320,000, main participants

  14. National Science and Technology Support Plan (NO. 2014BAF08B01): precision gear transmission design and high-end gear manufacturing technology;Jun. 2014-Jun. 2017; funding: ¥3.31 million, main participants

  15. Aviation Science Foundation (NO. 1090030701): Research on load sharing technology of high-power herringbone star drive system;Dec. 2013-Dec. 2015; funding: ¥100,000, second person

  16. National Science and Technology Major Project (NO. 2014ZX04001011): Five-axis vertical milling-turning compound machining center for aero engine casings;Jan. 2014-Dec. 2016; funding: 11 million, main participants

  17. National Science and Technology Major Project (NO. 2013ZX04001061): Development of key equipment for milling and turning of small and medium-sized aero engine parts;Jan. 2013-Dec. 2015; funding: 11 million, main participants

Teaching Projects:

  1. Tianjin University Student Innovation and Entrepreneurship Training Program (NO. 201710058085): Research on the design and manufacturing methods of new high-strength asymmetric gears; Jul. 2017-Jul. 2019; Project instructor

  2. Tianjin University of Technology Postgraduate Scientific and Technological Innovation Activity Plan (NO. 181198): Optimal design of ultra-high-speed small-energy-consumption cotton spinning spindles and research on vibration and noise reduction mechanisms; Jul. 2018-Jul. 2020; Project instructor

  3. Tianjin University of Technology Postgraduate Scientific and Technological Innovation Activity Plan (NO. 19113): Analysis and structure control of gas-liquid two-phase flow field distribution and aviation structure of aviation gear injection lubrication; Jul. 2019-Jul. 2021; Project instructor

  4. Tianjin University of Technology Postgraduate Science and Technology Innovation Activity Plan (NO. 17118): Research on Asymmetric Composite Planetary Wind Power Transmission System; Jul. 2017-Jul. 2019; Project Instructor

  5. Tianjin University of Technology "teacher-student cooperation" teaching resource construction project (NO. 2016-SZH-11): Construction of a 3D digital typical part model library based on SolidWorks / UG; Dec. 2016-Dec. 2017; Project manager

  6. Tianjin University of Technology's School-level Teaching Reform Project (NO. 2017-2-20): Research on the teaching model of basic courses for mechanical majors oriented to the goal of cultivating innovative talents; Jan. 2018-Jan. 2019; Project principal

  7. Second prize of the 2018 National College Student Mechanical Innovation Design Competition (Tianjin Division): Rotating Stereo Parking Garage; Project Instructor

  8. Third Prize of National University Teachers' Teaching Innovation Contest (JS20181021193): Rotor experimental bench condition monitoring and fault diagnosis system

  9. Beijing-Tianjin-Hebei Graduation Design Contest-Third Prize of the 13th Guangshu Cup Undergraduate Graduation Design Contest, instructor

  10. Third Prize of Teaching Achievement Award of China Textile Industry Federation

Patents

  1. Mo Shuai, Zhang Yidu. Antrag Auf Erteilung Eines Erfindungspatentes [P]. P8391CH00 (Swiss Patent)

  2. Mo Shuai, Zhang Yidu, Wu Qiong. Herringbone Planetary Gearing [P]. ZL201410085781.9

  3. Mo Shuai, Zhang Yidu, Wu Qiong. Combined Segmented Herringbone Ring Gear [P]. ZL201410085773.4

  4. Mo Shuai, Zhang Yidu, Wu Qiong. Herringbone Star Transmission [P]. ZL201410085784.2

  5. Mo Shuai, Zhang Yidu, Wu Qiong. New GTF Aero Engine Fan Main Reducer [P]. ZL201410309501.8

  6. Mo Shuai, Zhang Yidu. An Eccentric Shaft-Linkage Combined Load Method and Its Reducer [P]. ZL201410567437.3

  7. Mo Shuai, Zhang Yidu. An External Meshing Double Helical Planetary Gear Reducer [P]. ZL 20141056743 6.9

  8. Mo Shuai, Ma Shuai, Jin Guoguang. A Tool System for Ultra-High Speed Cutting of CNC Machine Tools [P]. ZL 201710332806.4

  9. Mo Shuai, Zhang Yidu. ZL Planetary Reducer [P]. 201611107909.2

  10. Mo Shuai, Zhang Lu. A New Type of High-Power Herringbone Compound Planetary Gear Reducer [P]. 201410484147.2

  11. Mo Shuai, Zhang Haizheng. A Method and Device for Realizing A Public Welfare and Environmentally-Friendly Stray Animal Vending Machine [P]. 201510033035.X

  12. Mo Shuai, Zhang Haikun. An Intelligent and Environmentally-Friendly Automatic Pet Feeder for Urban Stray Pets and Its Implementation Method [P]. 201510033021.8

  13. Mo Shuai, Ma Shuai. A New Type of Large Transmission Ratio Transmission System [P]. 201710332808.3

  14. Mo Shuai, Ma Shuai. A New High-Power Density Split-Bus Transmission System [P]. 201710332807.9

  15. Mo Shuai, Ma Shuai. A Coaxial Surface Gear Planetary Transmission System [P]. 201710332275.9

  16. Mo Shuai, Ma Shuai. A High-Precision Test Bench for Transmission Efficiency of RV Reducer [P]. 201710332272.5

  17. Mo Shuai, Ma Shuai. A Two-Branch Power Transmission System with Two Branches [P]. 201710332274.4

  18. Mo Shuai, Ma Shuai. A New Type of Fitness Equipment with Swing-Slip Compound Sports [P]. 201711133189.1

  19. Mo Shuai, Ma Shuai. A Foldable Fitness Machine [P]. 201711133190.4

  20. Mo Shuai, Ma Shuai. A Simple Muscle Training Device [P]. 201711133322.3

  21. Mo Shuai, Zhu Shengping. A Service Life Extension Active Gain System for Aviation Gear [P]. 201810006321.0

  22. Mo Shuai, Zhu Shengping. A Transmission System for Automatic Production Line [P]. 201810006254.2

  23. Mo Shuai, Gong Jiabei. A Tooth Root Subsurface Stress Measurement System for High-Performance Rack Members [P]. 201810006253.8

  24. Mo Shuai, Gong Jiabei. A Self-Lifting Horizontal Reciprocating Top Bag Mechanism [P]. 201810006192.5

  25. Mo Shuai, Zhang Ting. A Single-Source Multi-Channel Power Shunt Motion Conversion Mechanism [P]. 201810006322.5

  26. Mo Shuai, Zhang Ting. A Dual-Input Dual-Output Self-Damping Gear Transmission System [P]. 201810006252.3

  27. Mo Shuai, Feng Zhanyong. An Oblique Climbing Package Pushing Mechanism [P]. 201810006191.0

  28. Mo Shuai, Pan Zhangyong, Huang Tao. A Multi-Layer Rotating Automatic Stereo Parking Garage [P]. 201810356674.3

  29. Mo Shuai, Feng Zhanyong. A Nested Vibration-Absorbing High-Speed Textile Spindle [P] .201811175380.7

  30. Mo Shuai, Feng Zhanyong. A Low-Energy High-Speed Cotton Spinning Spindle [P]. 201811175452.8

  31. Mo Shuai, Feng Zhanyong. A Kind of High-Speed and Energy-Saving Textile Spindle with Anti-Grease Separation [P]. 201811175454.7

  32. Mo Shuai, Feng Zhanyong. An Intelligent Oil Changing Textile Spindle System [P]. 201811175628.X

  33. Mo Shuai, Zhu Shengping. A Method for Creating Real Tooth Surfaces of Arc Gears Based on Circular Tooth Profiles [P]. 201811175378.X

  34. Mo Shuai, Zhu Shengping. A Double-Helix Gear Pair with A Circular Arc Profile with High Load-Carrying Arc Contact [P]. 201811175677.3

  35. Mo Shuai, Zhu Shengping. Aviation Helical Gear Transmission System [P]. 201811175728.2

  36. Mo Shuai, Zhu Shengping. A Herringbone Arc-Tooth Planetary Transmission System Based on Circular Tooth Profile [P]. 201811175241.4

  37. Mo Shuai, Zhu Shengping. A Method for Creating Real Tooth Surface of Double-Arc Helical Gear with Circular Arc Profile [P]. 201811175245.2

  38. Mo Shuai, Dang Heyu. A Series Self-Absorbing Vibration Asymmetric Gear Transmission System [P] .201910061030.6

  39. Mo Shuai, Dang Heyu. An Adjustable Speed Double-Output Herringbone Arc Tooth Differential Transmission System [P]. 201910062040.1

  40. Mo Shuai, Shi Lijuan. A High-Performance Arc-Tooth Planetary Reducer [P]. 201910061988.5

  41. Mo Shuai, Tang Wenjie. A Nutation Drive System with Large Speed Ratio Gear [P]. 201910062069.X

  42. Mo Shuai, Tang Wenjie. Asymmetric Gear Planetary Transmission System with Small Tooth Difference [P]. 201910061922.6

  43. Mo Shuai, Yue Zongxiang. A Coaxial High-Power Density Compound Transmission System [P]. 201910062119.4

  44. Mo Shuai, Zou Zhenxing. Arc-Shaped Herringbone Planetary Differential Drive System with Active Speed Regulation [P]. 201910062039.9

Teaching Courses:

"Principle of Machinery", "Basics of Mechanical Design", "Precision Mechanical Design", "Course Design of Mechanical Principles", "Design of Mechanical Design Courses", "Innovative Methods and Implementation of Technology Invention", "Introduction to Aerospace Technology"

Academic Activities:

  1. Representative of the "Ninth National Congress" Of Tianjin Science and Technology Association

  2. Deputy Director of Engineering Technology Research Center of Synchronous Pulleys in Machinery Industry

  3. Chief Engineer, Tianjin Machinery Research Institute

  4. Tianjin Mechanical Design Society, Executive Deputy Secretary-General

  5. Director, Tianjin Design Society

  6. Director, Tianjin Robot Society

  7. Shenzhen Hefa Gear Machinery Co., Ltd., Distinguished Expert

  8. Qingyan New Energy Vehicle Engineering Center (Xiangyang) Co., Ltd., Distinguished Expert

  9. Tianjin Research Institute for Advanced Equipment, Tsinghua University, Distinguished Expert

  10. Project Specialist, China Special Equipment Inspection and Research Institute

  11. Shandong University, Off-Campus Master's Tutor

  12. Tianjin University of Science and Technology, Off-Campus Master's Tutor

  13. Member of Chinese Society of Vibration Engineering-Mechanical Dynamics Committee

  14. Member of The Chinese Association of Artificial Intelligence-Intelligent Robot Professional Committee

  15. Member of China Textile Engineering Society-Textile Machinery Equipment Professional Committee

  16. Proc IMechE, Part C: Journal of Mechanical Engineering Science Reviewer

  17. Proc IMechE, Part D: Journal of Automobile Engineering Reviewer

  18. Advances in Mechanical Engineering Reviewer

  19. Reviewer of The Open Mechanical Engineering Journal

  20. Reconfigurable Mechanisms and Robots Reviewer

  21. IEEE Access Reviewer

  22. Nonlinear Engineering – Modeling and Application Reviewer

  23. Mechanism and Machine Theory Reviewer

  24. Lubrication Science Reviewer

  25. Reviewer of Journal of Central South University (English Version)

  26. Reviewers of Advanced Composites Letters

  27. Engineering Computations Reviewer

  28. International Journal of Engineering Reviewer

  29. Guest Editor, Mechanical Industry Press

  30. Tianjin Technical Broker

  31. Editorial Board of China Gear Industry Yearbook (2018 Edition)

  32. Editorial Board of Gears Manual (2019 Edition)

Honors:

  1. Selected as A Young Talents Supporting Project of China Association for Science and Technology in 2019

  2. Selected for Tianjin Youth Talent Project in 2019

  3. Selected as the Fifth Beijing-Tianjin-Hebei High-Level Talent National Training Course in 2019

  4. Selected into the National Science and Technology Talent Training Course of China Association for Science and Technology in 2019

  5. Nominated Tianjin Youth May Fourth Medal in 2019

  6. Selected as Tianjin 131 Innovative Talent Project in 2016

  7. Excellent Annual Assessment of Party Members in Tiangong University in 2018

  8. Outstanding Annual Assessment at Tiangong University in 2017

  9. Selected as the First Young Teacher Training Course of the Party School of Tiangong University in 2017 (Huangpu Phase I)

  10. Outstanding Graduates of Beihang University in 2016

  11. Outstanding PhD Student of Beihang University in 2016

  12. 2016 Beihang University Outstanding Academic Paper Award

  13. 12 2015 Advanced Individual in Party Affairs of Beihang University

  14. National Scholarships for PhD Students in 2015

  15. National Scholarships for Master Students in 2013

  16. 2014 GE Foundation TECH Award


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