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| Associate researcher | |
| Address: Room 326, Science and Technology Building, Gulou Campus, Nanjing University | |
| Email: guanjun.pan@nju.edu.cn | |
| Homepage: https://www.researchgate.net/profile/Guanjun_Pan Research Fields: Shape memory alloy; titanium alloy biomaterial; soft magnetic material Profile: Pan Guanjun received his doctorate in materials science and engineering in 2012 from Polytechnic University of Turin, Italy. He was recruited by Nanjing University in the same year. Since June 2014, he has been working as an associate researcher at the College of Modern Engineering and Applied Sciences, Nanjing University. His research interests lie in metal physics, including: structure and mechanical behavior of nano-scale metal films, application of shape memory alloys in MEMS, development and application of magnetic shape memory alloys, and application and industrialization of soft magnetic materials. He has participated as a key researcher in one Italian national project and two projects of the National Natural Science Foundation of China. He has published more than 10 papers in SCI academic journals. Research Achievements Publications [1] Pan, G., Cao, Z., Shi, J., Xu, L., Wei, M., & Meng, X. (2014). Different mechanical response of TiNi film induced by the shape of indenter during nanoindentation. Sensors and Actuators A: Physical, 217, 75-80. [2] Pan, G., Cao, Z., Wei, M., Shi, J., Xu, L., & Meng, X. (2014). Thickness and grain size dependence of B2–R martensitic transformation behaviors in nanoscale TiNi films. Materials Letters, 130, 285-8. [3] Pan, G., Cao, Z., Wei, M., Xu, L., Shi, J., & Meng, X. (2014). Superelasticity of TiNi thin films induced by cyclic nanoindentation deformation at nanoscale. Materials Science and Engineering: A, 600, 8-11. [4] Pan, G., Balagna, C., Martino, L., Pan, J., & Spriano, S. (2014). Microstructure and transformation temperatures in rapid solidified Ni–Ti alloys. Part II: The effect of copper addition. Journal of Alloys and Compounds, 589, 633-642. [5] Pan, G., Balagna, C., Martino, L., & Spriano, S. (2014). Microstructure and transformation temperatures in rapid solidified Ni–Ti alloys. Part I: The effect of cooling rate. Journal of Alloys and Compounds, 589, 628-632. Patents [1] Narrow hysteresis sub-micron shape alloy thin film and preparation method thereof. Chinese Patent No.201410435323.3. [2] Ni-Ti-Cu alloy with low modulus and high corrosion resistance and preparation method thereof. Chinese Patent No.201410435069.7. [3] Fe-Si magnetic powder core with low magnetic core loss and preparation method thereof. Chinese Patent No.201410744002.1. [4] An organic-inorganic composite insulation-coated Fe-Si-Al magnetic powder core. Chinese Patent No.201410744164.5. Monograph: Guanjun Pan, Cristina Balagna, & Silvia Spriano. Innovative Ti Alloys for Biomedical Applications. LAP LAMBERT Academic Publishing, 2013, ISBN:978-3-659-50193-7. | |
