Min Ji
| ID | 338 |
|---|---|
| 姓名 | Min Ji |
| 职位 | 4 |
| 联系方式 | <p><span><a href="http://undefined">jiminiver@163.com</a></span></p><p><span>13181709820</span></p> |
| 个人简介 | <p><strong><span style="font-family:'Times New Roman',serif">Summary</span></strong></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">Min Ji</span><span style=";font-family:宋体;color:#333333">,</span><span style=";font-family:'Times New Roman',serif;color:#333333">male</span><span style=";font-family: 宋体;color:#333333">,</span><span style=";font-family:'Times New Roman',serif;color:#333333">doctor of engineering</span><span style=";font-family:宋体;color:#333333">,</span><span style=";font-family:'Times New Roman',serif;color:#333333">associate professor. From 2010 to 2014, He studied in Qingdao University of Technology and obtained the Bachelor's degree of Engineering. From 2015 to 2018, He studied in Shandong University and obtained the Master's degree of Engineering. From 2018 to 2022, He studied in Shanghai Jiao Tong University and obtained the doctor's degree of engineering. 2022.08 Engaged in teaching and scientific research in Qingdao University of Technology. He has published 12 SCI papers and authorized 2 national invention patents.</span></p><p><strong><span style="font-family:'Times New Roman',serif">Concurrent Academic Posts </span></strong></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">The editorial board member of Journal of Coating Science and Technology</span><span style=";font-family:宋体;color:#333333">;</span><span style=";font-family:'Times New Roman',serif;color:#333333">The reviewer of Ceramics International</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">Simulation</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">Green Materials</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">International Journal of Aerospace Engineering</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">Advances in Materials Science and Engineering</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">Journal of Engineering</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">Lubricants</span><span style=";font-family:宋体;color:#333333">、</span><span style=";font-family:'Times New Roman',serif;color:#333333">Current Materials Science.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333"> </span></p><p><strong><span style=";font-family:'Times New Roman',serif;color:#333333">Research Interests</span></strong><span style=";font-family:宋体;color:#333333">:</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">1. Surface/interface properties control of the implant materials </span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">2. Ultrasonic vibration assisted machining technology</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">3. Advanced processing technology for aerospace composite materials</span></p><p><br/></p> |
| 研究课题 | <p><strong><span style=";font-family:'Times New Roman',serif;color:#333333">Research Project</span></strong><span style=";font-family:'Times New Roman',serif;color:#333333">:</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">1. Study on micro-texture preparation of dental zirconia ceramics by ultrasonic vibration milling based on sintering process control, National Natural Science Foundation of China, 2022-2025, Participated.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">2. The method and evaluation of low-damage and densified implant hole preparation for loose alveolar bone base on mechanobiology, National Natural Science Foundation of China, 2022-2025, Participated.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">3. Cutting grinding process knowledge platform and process basic database for typical components of heavy-duty gas turbine, Aviation engine and gas turbine major project, 2021-2023, Participated.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">4. The demonstration application of high-speed clean cutting equipment, tools and intelligent support system integrated in automotive engine processing dark factory, National Key Research and Development Plan</span><span style=";font-family:宋体;color:#333333">,</span><span style=";font-family:'Times New Roman',serif;color:#333333">2021-2023</span><span style=";font-family:宋体;color:#333333">,</span><span style=";font-family:'Times New Roman',serif;color:#333333">Participated.</span></p> |
| 研究成果 | <p><strong><span style=";font-family:'Times New Roman',serif;color:#333333">Output</span></strong></p><p><strong><span style=";font-family:'Times New Roman',serif;color:#333333">Paper</span></strong><span style=";font-family:'Times New Roman',serif;color:#333333">:</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">1. <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Jinyang Xu*, Ming Chen, Mohamed El Mansori. Enhanced hydrophilicity and tribological behavior of dental zirconia ceramics based on picosecond laser surface texturing [J]. Ceramics International. 2020, 46(6): 7161-7169.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">2. <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Heng Zhang, Jinyang Xu*, Chao Li, Dedong Yu, Ming Chen, Mohamed El Mansori. Toward the mechanisms of surface texturing on the wear behavior of dental zirconia ceramics under dry and saliva lubricated conditions [J]. Wear. 2019,484-485: 203845.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">3. <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Jinyang Xu*, Dedong Yu, Ming Chen, Mohamed El Mansori. Influence of sintering temperatures on material properties and corresponding milling machinability of zirconia ceramics [J]. Journal of Manufacturing Process. 2021, 68: 646-656.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">4. <strong><span style="text-decoration:underline;">Min Ji,</span></strong> Jinyang Xu*, Linfeng Li, Dedong Yu, Ming Chen, Mohamed El Mansori. Nano-scale mechanical behaviors and material removal mechanisms of zirconia ceramics sintered at various temperatures [J]. Ceramics International. 2021, 47(23): 32588-32598.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">5. <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Jinyang Xu*, Linfeng Li, Dedong Yu, Ming Chen, Norbert Geier, Mohamed El Mansori. Investigation of material removal mechanisms and ductile-brittle transition zone of zirconia ceramics sintered at various temperatures [J]. Journal of the Mechanical Behavior of Biomedical Materials. 2022, 125: 104944.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">6. <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Jinyang Xu*, Ming Chen, Mohamed El Mansori, Fei Ren. Effects of different cooling methods on the specific energy consumption when drilling CFRP/Ti6Al4V stacks [J]. Procedia Manufacturing. 2019, 43: 95-102.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">7. Jinyang Xu, Tieyu Lin, Linfeng Li, <strong><span style="text-decoration:underline;">Min Ji*</span></strong>, J. Paulo Davim, Norbert Geierc, Ming Chen. Numerical study of interface damage formation mechanisms in machining CFRP/Ti6Al4V stacks under different cutting sequence strategies, Composite Structure, 2022, 285: 115236.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">8. Jinyang Xu*, <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Linfeng Li, Yi Wu, Qi Yu, Ming Chen. Improving wettability, antibacterial and tribological behaviors of zirconia ceramics through surface texturing [J]. Ceramics International. 2022, 48(3): 3702-3710.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">9. Jinyang Xu*, <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Ming Chen, Fei Ren. Investigation of minimum quantity lubrication effects in drilling CFRP/Ti6Al4V stacks [J]. Materials and Manufacturing Processes. 2019, 34(12): 1401-1410.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">10. Jinyang Xu*, <strong><span style="text-decoration:underline;">Min Ji</span></strong>, J. Paulo Davim, Ming Chen, Mohamed El Mansori, Vijayan Krishnaraj. Comparative study of minimum quantity lubrication and dry drilling of CFRP/titanium stacks using TiAlN and diamond coated drills [J]. Composite Structures. 2020, 234: 111727.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">11. Jinyang Xu*, <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Ming Chen, Mohamed El Mansori. Experimental investigation on drilling machinability and hole quality of CFRP/Ti6Al4V stacks under different cooling conditions [J]. The International Journal of Advanced Manufacturing Technology. 2020, 109: 1527-1539.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">12. Jinyang Xu*, <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Ming Chen. On the quantitative analysis of drill edge wear when machining CFRP/Ti6Al4V stacks [J]. The International Journal of Advanced Manufacturing Technology. 2020, 108: 1463-1472.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">13. Jinyang Xu*, <strong><span style="text-decoration:underline;">Min Ji</span></strong>, Linfeng Li, Ming Chen. Evaluation of polycrystalline diamond tools in milling of pre-sintered and fully sintered zirconia ceramics [J]. Journal of Superhard Materials. 2022, 44(1): 62-69.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333"> </span></p><p><strong><span style=";font-family:'Times New Roman',serif;color:#333333">Patent</span></strong></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">1. A reconfigurable fixture for the aluminum components with different strctures, Jinsheng Zhang, Min Ji, Weiqian Liu, Yang Cao, Invention Patent, ZL201610349085.3.</span></p><p><span style=";font-family:'Times New Roman',serif;color:#333333">2. A beam dynamic balancing mechanism and a machine tool suitable for open structure processing equipment, Jinsheng Zhang, Min Ji, Shuda Wang, Invention Patent, ZL201710104368.6.</span></p><p><br/></p> |
| 教学 |