Ph.D., 2005-2010, Institute of Metal Research, Chinese Academy of Sciences, Doctoral Thesis “Superplastic deformation behavior of friction stir processed aluminum alloys”
B.S., 2001-2005, Hebei University of Technology, Material Science and Engineering
- Inter-relationships between processing, microstructure and properties
- Microstructure evaluation using SEM, EBSD, TEM and 3D APT
- Friction stir welding and processing
- Rotary/linear friction welding
- Solid state welding of dissimilar metals
- Directly joining metals to polymer composites
- Superplastic forming
- Mechanical behavior of metals, particular at elevated temperatures
Fengchao Liu got his Ph.D. degree in Materials Science and Engineering in 2010 at the Institute of Metal Research (IMR), Chinese Academy of Sciences. Following his Ph.D., Fengchao had a short career as an academic in China.
He was appointed Assistant Professor by Yanshan University after his graduation and was promoted to be Associate Professor in his 2nd year of appointment. In order to seek a better research environment, Fengchao began to work abroad at Nanyang Technological University (Singapore, 2012) and Osaka University (Japan, 2012-2015), respectively. In 2014, He secured the internationally competitive and highly prestigious Japan Society for the Promotion of Science (JSPS) Postdoctoral Research Fellowship. Fengchao came to the U.S. in 2015 and joined Brigham Young University as a Research Associate (2015-2017). In 2017, he was lucky to become a member of the family of the University of Michigan. He is serving as Assistant Research Scientist at Naval Architecture and Marine Engineering, University of Michigan.
The majority of Fengchao’s research has been on unveiling the inter-relationships between advanced solid-state welding/processing, microstructure, and properties, particularly associated with friction stir welding/processing and dissimilar materials welding. His work on process development, as well as microstructure and property evolution (characterized by scanning electron microscope (SEM), electron backscatter diffraction (EBSD), transmission electron microscopy (TEM) and 3D atom probe tomography (3D APT)) in materials modified by advanced solid-state processing, has resulted over 40 peer-reviewed scientific articles with more than 1100 citations by 2018.
1. F.C Liu, P. Dong, W. Lu, K. Sun, On formation of Al-O-C bonds at aluminum/polyamide joint interface. Applied Surface Science, Vol.466 pp. 202-209, 2019
2. F.C. Liu, T.W. Nelson, Twining and dynamic recrystallization in austenitic Alloy 718 during friction welding. Materials Characterization, Vol.140 pp. 39-44, 2018.
3. F.C. Liu, T.W. Nelson, Grain structure evolution, grain boundary sliding and material flow resistance in friction welding of Alloy 718. Materials Science and Engineering: A Vol. 710, pp. 280-288, 2018.
4. F.C. Liu, Y. Hovanski, M.P. Miles, C.D. Sorensen, T.W. Nelson, A review of friction stir welding of steels: Tool, material flow, microstructure, and properties. Journal of Materials Science & Technology Vol. 34 pp. 39-57, 2018.
5. C. Gunter, M.P. Miles, F.C. Liu, T.W. Nelson, Solid state crack repair by friction stir processing in 304L stainless steel. Journal of Materials Science & Technology Vol. 34 pp. 140-147. 2018.
6. F.C. Liu, T.W. Nelson, “In-situ grain structure and texture evolution during friction stir welding of austenite stainless steel”, Materials & Design, Vol. 115, pp 467-478, 2017.
7. F.C. Liu, T.W. Nelson, “In-situ material flow pattern around probe during friction stir welding of austenitic stainless steel”, Materials & Design, Vol. 110, pp 354-364, 2016.
8. J.J. Pang, F.C. Liu, J. Liu, M.J. Tan, D.J. Blackwood, Friction stir processing of aluminum alloy AA7075: Microstructure, surface chemistry and corrosion resistance. Corrosion Science, Vol 106, pp. 217-228, 2016.
9. K. Wang, F.C. Liu, P. Xue, D. Wang, B.L. Xiao, Z.Y. Ma, Superplastic constitutive equation including percentage of high-angle grain boundaries as a microstructural parameter, Metallurgical Materials Transactions A, Vol. 47, pp. 546-559, 2016.
10. F.C. Liu, J. Liao, Y. Gao, K. Nakata, Effect of plasma electrolytic oxidation coating on joining metal to plastic, Science and Technology of Welding and Joining, Vol. 20, pp. 291-296, 2015.