Yanbin ZHANG

Education: Ph.D. (Qingdao university   of technology)

Major: Mechanical Engineering

School: School of Mechanical and Automotive Engineering   (MAE)

Department/Institute: Department of intelligent manufacturing   engineering; Intelligent and sustainable precision manufacturing Lab

Title:   Professor

Email:   zhangyanbin1_QDLG@163.com

Personal profile（个人简介）

Yanbin ZHANG   is currently a full-time Professor in MAE. His main work is concentrated on   fundamental research and education in intelligent and sustainable precision   manufacturing. He has published more than 50 papers in peer-reviewed   international journals, including in International Journal of Machine Tools   and Manufacture and Journal of Materials Processing Technology. Among them, 6   are ESI hot paper and 16 are ESI highly cited papers. He owns 26 invention   patents. As a principal investigator, he has undertaken research projects   funded by NSFC (Natural Science Foundation of China), the Shandong Provincial   Department of Education, and some industrial partners. He has won the 2nd   Prize of the Natural Science award of Shandong Province, the 1st Prize of the   Scientific and Technological Progress of Circular Economy of China, 2019   Excellence Award of Hiwin doctoral dissertation award.

Employment track（工作履历）

July 2018 –   December 2019, Assoc. Professor, School of Mechanical and Automotive   Engineering, Qingdao   University of Technology, China.

January 2020   – present, Professor, School of Mechanical and Automotive Engineering (MAE),   Qingdao University of Technology, China.

December   2018 – December 2020, Postdoctoral fellow, Joint Postdoctoral Workstation of Shandong   university and MH Robot & Automation Co., LTD, China

November   2021 – November 2023, Postdoctoral fellow (Hong Kong Scholars Program), State   Key Laboratory of Ultra-precision Machining Technology, The Hong Kong   Polytechnic University, Hong Kong

Professional Service （学术兼职）

1. Associate   editor of the Journal of advanced manufacturing science and technology

Research field（研究领域）

Mechanical   Engineering, Sustainable and precision manufacturing, Intelligent manufacturing

Teaching（教学情况）

1. Metal technology,   undergraduate course

2. Hydraulic   and pneumatic transmission, undergraduate course

3. Numerical   control technology and machine tools, undergraduate course

4 Frontier   of mechanical engineering, Postgraduate course

Scientific research（科研情况）

Current research interests

1. Minimum quantity lubrication grinding

2. Multi-energy field assisted machining.

3. Precision and ultra-precision machining

Academic achievements（学术成果）

Selected   Research Projects:

1. The   complete set technology and demonstration application of cleaning cutting for   typical materials and parts of Aerospace: Topic 2: Micro lubrication complete   set technology, intelligent device and demonstration application, National   key R & D plan, 10/2020 – 09/2023, 2020YFB2010500, Unit leader.

2. Dynamic   capillary formation mechanism and droplet migration film formation mechanism   of nanofluid droplet grinding wheel / workpiece interface, Natural Science   Foundation of China, 01/2020-12/2022, 51905289, PI.

3. Development   of a smart grinding and polishing system for ultra-precision machining   freeform surfaces, Hong Kong Scholars Programme,11/2021 – 11/2023, XJ2021022,   PI.

4. Intelligent   and clean precision manufacturing innovation team, Talent Introduction and   Education Program for Youth Innovation teams in Shandong Colleges and   Universities, 01/2022–12/2024, PI.

5. Dynamic   model and interfacial tribological behavior of droplet permeation film   formation in nanoparticle jet minimum quantity lubrication grinding, Key R   & D plan of Shandong Province, 2019GGX104040, 08/2019 – 07/2021, PI.

6. Intelligent   and clean precision manufacturing key technology, Young Scientific and   technological Talents Supporting Project of Shandong Province, SDAST2021qt12,   11/2021 – 11/2024, PI.

7. Key   technology and intelligent supply system for precise transportation of   bio-environmental lubricant， Science and technology smes innovation ability Promotion project   of Shandong Province, 2021TSGC1368, 01/2022-12/2023, PI.

Selected   Publications：

1. Zhang Y, Li C, Ji H, et al.   Analysis of grinding mechanics and improved predictive force model based on   material-removal and plastic-stacking mechanisms[J]. International Journal of   Machine Tools and Manufacture, 2017, 122: 81-97.

2. Zhang Y, Li C, Jia D, et al.   Experimental evaluation of the lubrication performance of MoS2/CNT nanofluid   for minimal quantity lubrication in Ni-based alloy grinding[J]. International   Journal of Machine Tools and Manufacture, 2015, 99: 19-33.

3. Zhang Y, Li C, Jia D, et al.   Experimental evaluation of MoS2 nanoparticles in jet MQL grinding with different   types of vegetable oil as base oil[J]. Journal of Cleaner Production, 2015,   87: 930-940.

4. Zhang Y, Li C, Jia D, et al.   Experimental study on the effect of nanoparticle concentration on the   lubricating property of nanofluids for MQL grinding of Ni-based alloy[J].   Journal of Materials Processing Technology, 2016, 232: 100-115.

5. Zhang Y, Li H N, Li C, et al.   Nano-enhanced biolubricant in sustainable manufacturing: from processability   to mechanisms[J]. Friction, 2022: 1-39.

6. Zhang Y, Li C, Yang M, et al.   Experimental evaluation of cooling performance by friction coefficient and   specific friction energy in nanofluid minimum quantity lubrication grinding   with different types of vegetable oil[J]. Journal of cleaner production,   2016, 139: 685-705.

7. Gao T, Li C, Zhang Y, et al.   Dispersing mechanism and tribological performance of vegetable oil-based CNT   nanofluids with different surfactants[J]. Tribology International, 2019, 131:   51-63.

8. Zhang Y, Li C, Zhang Q, et al.   Improvement of useful flow rate of grinding fluid with simulation schemes[J].   The International Journal of Advanced Manufacturing Technology, 2016, 84(9):   2113-2126.

9. Zhang Y, Li C, Zhao Y, et al.   Material removal mechanism and force model of nanofluid minimum quantity   lubrication grinding[M]//Advances in Microfluidic Technologies for Energy and   Environmental Applications. IntechOpen, 2020.

10. Jia   D, Li C, Zhang Y, et al. Experimental evaluation of surface topographies of   NMQL grinding ZrO2 ceramics combining multiangle ultrasonic vibration[J]. The   International Journal of Advanced Manufacturing Technology, 2019, 100(1):   457-473.

11. Yang   M, Li C, Zhang Y, et al. Effect of friction coefficient on chip thickness   models in ductile-regime grinding of zirconia ceramics[J]. The International   Journal of Advanced Manufacturing Technology, 2019, 102(5): 2617-2632.

12. Zhang   Y, Li C, Yang M, et al. Analysis of single-grain interference mechanics based   on material removal and plastic stacking mechanisms in nanofluid minimum   quantity lubrication grinding[J]. Procedia CIRP, 2018, 71: 116-121.

Honors   and Awards

1. 1st prize of Shandong Province   Technology Invention Award, 2019.

2. 2nd prize of Shandong Province   Natural Science Award, 2020.

3. 2nd prize of Scientific Research   Outstanding Achievement Award for Higher Schools of the Ministry of Education,   2018.

4. 1st prize of China Circular   Economy Association Science and Technology Award, 2020.

5. 1st prize of Science and   Technology Award of China Business Federation, 2019.

6. Winner of 2019 Excellence Award   of Hiwin doctoral dissertation award, 2019.

7. 1st prize of Shandong Province   Patent Award, 2020.