Changhe Li

ChangheLi is a foreign academician of the Russian Academy of Engineering, a distinguished expert of Taishan Scholars in Shandong Province, Shandong Excellent Inventor, Shandong Excellent Scientific and Technological Worker, Shandong Famous Teacher of Teaching and Shandong Excellent Postgraduate Instructor, Global Highly Cited Scientists released by Clarivate, Highly Cited Chinese Researcher of Elsevier, one of the World's Top 2% Scientists 2022 and Lifetime Scientific Impact Scientists released by the United States Stanford University. He is also the member of the Standing Committee of the Abrasive Processing Professional Committee of the Chinese Mechanical Engineering Society, member of the Standing Committee of the Optical Finishing Professional Committee of the Chinese Mechanical Engineering Society, the Editorial Board member of Frontiers of Mechanical Engineering and Green Manufacturing Open, Guest Editor of International Journal of Advanced Manufacturing Technology, Chinese Journal of Mechanical Engineering, and Associate Editor of Chinese Journal of Mechanical Engineering. He has published 268 SCI/EI-accepted papers, including 86 in SCI/JCR(1-2), and 62 ESI highly cited papers, 20 hot papers, with a total of more than 11,224 citations (Web of Science), and is ranked 25th in the list of academic influence of scholars in China in 2022 (only 70 people in China in the field of mechanical engineering). He is selected as the 24th academic influence of domestic scholars in 2022, and has a high academic status and popularity in the same field at home and abroad. He has constructed a high-value patent cluster covering the upstream and downstream industrial chain in different regions such as the United States, Australia, Germany, etc., with 426 invention patents, 74 high-impact patents, and the patents have been cited by 920 patentees from the United States, Germany, the United Kingdom, etc. for 2074 times.

Publications

Thermodynamic Mechanism of Cryogenic Air Minimum Quantity Lubrication Grinding
Thermodynamic Mechanism of Cryogenic Air Minimum Quantity Lubrication Grinding
Mingzheng Liu, Changhe Li. © 2024. 395 pages.
The achievement of high-efficiency and precise grinding of difficult-to-cut metals—like titanium alloys—is essential in the aerospace industry. However, the process often results...
Experimental Evaluation on the Effect of Nanofluids Physical Properties With Different Concentrations on Grinding Temperature
Experimental Evaluation on the Effect of Nanofluids Physical Properties With Different Concentrations on Grinding Temperature
Changhe Li, Hafiz Muhammad Ali. © 2021. 24 pages.
This chapter is proposed to solve the insufficient MQL cooling and heat transfer capability based on the heat transfer enhancement theory of solid. Adding nanoparticles into the...
Enhanced Heat Transfer Mechanism of Nanofluids Minimum Lubrication Grinding
Enhanced Heat Transfer Mechanism of Nanofluids Minimum Lubrication Grinding
Changhe Li, Hafiz Muhammad Ali. © 2021. 23 pages.
This chapter will discuss in detail the various aspects of nanofluids, form preparation of nanofluids, characterization and flow and energy transportation mechanisms of...
Experimental Research on Heat Transfer Performance in MQL Grinding With Different Nanofluids
Experimental Research on Heat Transfer Performance in MQL Grinding With Different Nanofluids
Changhe Li, Hafiz Muhammad Ali. © 2021. 21 pages.
An investigation into the effect of nanofluid minimum quantity lubrication (MQL) on the temperatures in surface grinding is presented and discussed. Six types of nanoparticles...
Experimental Research on Minimum Quantity Lubrication Surface Grinding With Different Cooling and Lubrication Conditions
Experimental Research on Minimum Quantity Lubrication Surface Grinding With Different Cooling and Lubrication Conditions
Changhe Li, Hafiz Muhammad Ali. © 2021. 28 pages.
Given the increasing attention to environmental and health problems caused by machining, the development of an environmentally friendly grinding fluid has become an urgent task....
Experimental Evaluation on Tribological Performance of the Wheel/Workpiece Interface in NMQL Grinding With Different Concentrations of Al2o3 Nanofluids
Experimental Evaluation on Tribological Performance of the Wheel/Workpiece Interface in NMQL Grinding With Different Concentrations of Al2o3 Nanofluids
Changhe Li, Hafiz Muhammad Ali. © 2021. 20 pages.
As a result of the growing need for environmental protection and the increasing number of health problems faced by workers, traditional lubricants are gradually being replaced....
Enhanced Heat Transfer Mechanism of Nanofluid MQL Cooling Grinding
Enhanced Heat Transfer Mechanism of Nanofluid MQL Cooling Grinding
Changhe Li, Hafiz Muhammad Ali. © 2020. 441 pages.
In today’s modern world, the manufacturing industry is embracing an energy-efficient initiative and adopting green techniques. One aspect that has failed to adopt this scheme is...