STAFF PROFILE
Associate Professor Yuncang Li
Position:
Associate Professor
College / Portfolio:
STEM College
School / Department:
STEM|School of Engineering
Phone:
+61399257560
Email:
yuncang.li@rmit.edu.au
Campus:
Bundoora East
Contact me about:
Research supervision
Associate Professor Yuncang Li is an Australian Research Council Future Fellow. His research interests focus on developing of biomaterials, amorphous and nano-structured materials, and renewable energy applications. He is currently working on titanium based alloys and its shape memory alloys, biodegradable magnesium alloys, nano particulate-reinforced titanium composites and surface fictionalization on metallic implant materials.
- Sola, A.,Chong, W.,Simunec, D.,Li, Y.,Trinchi, A.,Kyratzis, I.,Wen, C. (2023). Open challenges in tensile testing of additively manufactured polymers: A literature survey and a case study in fused filament fabrication In: Polymer Testing, 117, 1 - 28
- Kiani, M.,Lin, J.,Vahid, A.,Munir, K.,Wen, C.,Li, Y. (2023). Microstructures, mechanical properties, corrosion, and biocompatibility of extruded Mg–Zr–Sr–Ho alloys for biodegradable implant applications In: Journal of Magnesium and Alloys, 11, 110 - 136
- Zhu, L.,Xu, Y.,Liu, S.,Li, Y.,Wen, C., et al., . (2023). Microstructure, mechanical properties, friction and wear performance, and cytotoxicity of additively manufactured zirconia-toughened alumina for dental applications In: Composites Part B: Engineering, 250, 1 - 16
- Chong, W.,Shen, S.,Li, Y.,Trinchi, A.,Pejak, D.,Kyratzis, I.,Sola, A.,Wen, C. (2022). Additive manufacturing of antibacterial PLA-ZnO nanocomposites: Benefits, limitations and open challenges In: Journal of Materials Science and Technology, 111, 120 - 151
- Li, Y.,Wen, C. (2022). In vitro and in vivo assessment of the effect of biodegradable magnesium alloys on osteogenesis In: Acta Biomaterialia, 141, 454 - 465
- Tong, X.,Zhu, L.,Wang, K.,Shi, Z.,Huang, S.,Li, Y.,Ma, J.,Wen, C.,Lin, J. (2022). Impact of gadolinium on mechanical properties, corrosion resistance, and biocompatibility of Zn-1Mg-xGd alloys for biodegradable bone-implant applications In: Acta Biomaterialia, 142, 361 - 373
- Tong, X.,Zhu, L.,Wu, Y.,Li, Y.,Wen, C., et al, . (2022). A biodegradable Fe/Zn–3Cu composite with requisite properties for orthopedic applications In: Acta Biomaterialia, 146, 506 - 521
- Tong, X.,Wang, H.,Zhu, L.,Li, Y.,Wen, C., et al, . (2022). A biodegradable in situ Zn–Mg2Ge composite for bone-implant applications In: Acta Biomaterialia, 146, 478 - 494
- Zhu, L.,Tong, X.,Ye, Z.,Lin, Z.,Zhou, T.,Huang, S.,Li, Y.,Lin, J.,Wen, C.,Ma, J. (2022). Zinc phosphate, zinc oxide, and their dual-phase coatings on pure Zn foam with good corrosion resistance, cytocompatibility, and antibacterial ability for potential biodegradable bone-implant applications In: Chemical Engineering Journal, 450, 1 - 16
- Munir, K.,Lin, J.,Wright, P.,Ozan, S.,Li, Y.,Wen, C. (2022). Mechanical, corrosion, nanotribological, and biocompatibility properties of equal channel angular pressed Ti-28Nb-35.4Zr alloys for biomedical applications In: Acta Biomaterialia, 149, 387 - 398
Note: Supervision projects since 2004
4 PhD Current Supervisions and 1 Masters by Research Current Supervisions9 PhD Completions
Biomaterials engineering, Biocompatible metalic materials/porous scaffolds, titanium alloys, biodegradable magnesium alloys, shape memory metals and alloys composites, Surface modification of biomaterials
- New biocompatible titanium alloys for next-generation metallic biomaterials. Funded by: ARC Discovery Projects 2021 from (2021 to 2023)
- An upgraded nanoindenter facility with in-situ Raman at high temperature (administered by University of Wollongong). Funded by: ARC LIEF via other University from (2020 to 2021)
- Novel biocompatible magnesium alloys with specific materials properties. Funded by: ARC Future Fellowships Grant 2016 from (2017 to 2022)
- Biodegradable magnesium alloy scaffolds for bone tissue engineering. Funded by: 010-ARC Discovery Projects 2017 from (2017 to 2021)
- Novel biocompatible nickel-free shape memory alloy scaffolds for biomedical applications. Funded by: National Health and Medical Research Council (NHMRC) Project Grant 2014 from (2015 to 2019)