Xuexi Zhang wan born in Jiangsu province, China. Xuexi Zhang graduated from North University of China and gained my bachelor degree in Materials Science in 1997. Then he went to the Department of Materials Science and Engineering of Harbin Institute of Technology (HIT) and gained master degree in Materials Science in 1999 and Ph.D in 2003. He also joined HIT as a Lecturer in 2002 and became an Associate Professor in 2004. From 1997 to 2003, my research interests focused on the fabrication of Metal Matrix Composites (MMCs) by pressure infiltration and solidification mechanisms of discontinuously reinforced aluminum MMCs. From 2004, I paid more attention to the study of purification, dispersion and surface modification of Carbon Nanotubes (CNTs), the fabrication, mechanical and physical properties of CNTs/Al MMCs.
In the Dunand group, Xuexi Zhang prepared magnetic shape memory alloy foams by infiltration method. The relationship between the foam microstructure and magnetic shape memory properties will be experimentally revealed.
Biography:
Xuexi Zhang
Harbin Institute of Technology
Xuexi Zhang wan born in Jiangsu province, China. Xuexi Zhang graduated from North University of China and gained my bachelor degree in Materials Science in 1997. Then he went to the Department of Materials Science and Engineering of Harbin Institute of Technology (HIT) and gained master degree in Materials Science in 1999 and Ph.D in 2003. He also joined HIT as a Lecturer in 2002 and became an Associate Professor in 2004. From 1997 to 2003, my research interests focused on the fabrication of Metal Matrix Composites (MMCs) by pressure infiltration and solidification mechanisms of discontinuously reinforced aluminum MMCs. From 2004, I paid more attention to the study of purification, dispersion and surface modification of Carbon Nanotubes (CNTs), the fabrication, mechanical and physical properties of CNTs/Al MMCs.
In the Dunand group, Xuexi Zhang prepared magnetic shape memory alloy foams by infiltration method. The relationship between the foam microstructure and magnetic shape memory properties will be experimentally revealed.