🎓 Education
Shengnan Yuan earned her Doctor of Philosophy in Engineering from the University of Wollongong, Australia (expected completion: March 2025). Her research focuses on bimetal composites and their mechanical behavior. Prior to this, she completed a Master of Research in Engineering from the same university with a high-distinction thesis on size effects in stainless steel foil during the micro deep drawing process. She holds a Bachelor’s degree in Vehicle Engineering from Taiyuan University of Science and Technology, China, where she was a recipient of the Corporate Scholarship, University Special Merit Scholarship, and University First-Class Scholarship.
🔬 Experience
With extensive research experience, Shengnan Yuan has contributed to BAJC-funded Ph.D. projects focused on roll bonded clad steels and their service performance evaluation. Her work includes investigating the abrasive wear performance, deformation behavior, and annealing effects on bimetal composites. She has demonstrated 2.8 times higher wear resistance in Mn8/SS400 composites compared to standard materials. Her expertise spans microstructural analysis, mechanical testing, and heat treatment optimization. Additionally, she has participated in various industry engagements, hosting delegations and presenting research findings to government officials and steel industry leaders. She also serves as a tutor at the University of Wollongong, guiding students in experimental techniques.
🏅 Awards and Honors
Shengnan Yuan’s academic excellence has been recognized through multiple scholarships and awards. During her undergraduate studies, she received prestigious merit-based scholarships for outstanding academic performance. Her research work has been selected for oral and poster presentations at renowned international conferences, including ICTP, CAMS, and ICPMMT. Her contributions to cutting-edge material science research have positioned her as a promising expert in tribology and advanced manufacturing.
🔍 Research Focus
Shengnan Yuan’s research revolves around microstructure-property relationships in advanced materials, tribological performance optimization, and bimetal composite engineering. She has extensively studied the mechanical and tribological behavior of Mn8/SS400 bimetal composites, optimizing their annealing conditions, deformation characteristics, and failure mechanics. Her work provides valuable insights for industrial applications, particularly in the manufacturing of mining facilities and wear-resistant materials. She actively collaborates with industry leaders to translate her research into practical engineering solutions.
🌟 Conclusion
Shengnan Yuan is a rising researcher in advanced materials, tribology, and mechanical engineering, making significant contributions to the development and optimization of bimetal composites. Her work has paved the way for innovative industrial applications, improving the wear resistance and mechanical properties of critical engineering materials. With multiple publications, conference presentations, and industry collaborations, she continues to push the boundaries of material science, bridging the gap between academic research and industrial advancements. 🚀
📚 Publications
Analysis of abrasive impact wear of a bimetal composite using a newly designed wear testing rig – The International Journal of Advanced Manufacturing Technology (2024). Read here 📖
Effects of annealing temperature on the microstructure, mechanical properties, and tribological performance of the Mn8/SS400 bimetal composite – Tribology International (2025). Read here 🏗️
The Effects of Annealing on Microstructure and Mechanical Properties of Mn8/SS400 Bimetal Composite – International Conference on the Technology of Plasticity, Springer (2023). Read here 🔬
Deformation and fracture behaviour of heterostructure Mn8/SS400 bimetal composite – Materials (2025). Read here 🏭
Analysis of Rolling Force and Friction in Hot Steel Rolling with Water-Based Nanolubrication – Steel Research International (2024). Read here 🔧
Influence of GNPs solid lubricant on the fabrication of Cu/SS304L composite micro channels – Tribology International (2024). Read here ⚙️
Novel Fabrication of Ultra-thin Copper/SS304L Composite Microchannels – International Conference on the Technology of Plasticity, Springer (2023). Read here 🏗️