[1]  D. Wang, B. L. Xiao*, Q. Z. Wang, Z. Y. Ma, Evolution of the Microstructure and Strength in the Nugget Zone of Friction Stir Welded SiCp/Al-Cu-Mg Composite. Journal of Materials Science & Technology, 30, 1, 54-60, 2014.

　　[2]  H. L. Hao, D. R. Ni, Z. Zhang, D. Wang, B. L. Xiao*, Z. Y. Ma, Microstructure and mechanical properties of Al-Mg-Er sheets jointed by friction stir welding. Materials & Design, 52, 706-712, 2013.

　　[3]  Z. Y. Liu, B. L. Xiao, W. G. Wang, Z. Y. Ma*, Developing high-performance aluminum matrix composites with directionally aligned carbon nanotubes by combining friction stir processing and subsequent rolling. Carbon, 62, 35-42, 2013.

　　[4]  P. Xue, B. L. Xiao, Z. Y. Ma*, Enhanced strength and ductility of friction stir processed Cu-Al alloys with abundant twin boundaries. Scripta Materialia, 68, 9, 751-754, 2013.

　　[5]  D. Wang, B. L. Xiao*, Q. Z. Wang, Z. Y. Ma, Friction stir welding of SiCp/2009Al composite plate. Materials & Design, 47, 243-247, 2013.

　　[6]  Q. Yang, B. L. Xiao*, Z. Y. Ma*, Enhanced superplasticity in friction stir processed Mg-Gd-Y-Zr alloy. Journal of Alloys and Compounds, 551, 61-66, 2013.

　　[7]  H. L. Hao, D. R. Ni, H. Huang, D. Wang, B. L. Xiao*, Z. R. Nie, Z. Y. Ma, Effect of welding parameters on microstructure and mechanical properties of friction stir welded Al-Mg-Er alloy. Materials Science and Engineering A, 559, 889-896, 2013.

　　[8]  Q. Zhang, B. L. Xiao, W. G. Wang, Z. Y. Ma*, Reactive mechanism and mechanical properties of in situ composites fabricated from an Al-TiO2 system by friction stir processing. Acta Materialia, 60, 20, 7090-7103, 2012.

　　[9]  Z. Y. Liu, S. J. Xu, B. L. Xiao*, P. Xue, W. G. Wang, Z. Y. Ma, Effect of ball-milling time on mechanical properties of carbon nanotubes reinforced aluminum matrix composites. Composites A, 43, 12, 2161-2168, 2012.

　　[10] Z. Y. Liu, B. L. Xiao, W. G. Wang, Z. Y. Ma*, Singly dispersed carbon nanotube/aluminum composites fabricated by powder metallurgy combined with friction stir processing. Carbon, 50, 5, 1843-1852, 2012.     

　　[11]  Q. Zhang, B. L. Xiao*, Z. Y. Liu, Z. Y. Ma, Microstructure evolution and elemental diffusion of SiCp/Al-Cu-Mg composites prepared from elemental powder during hot pressing. Journal of Materials Science, 46, 21, 6783-6793, 2011.  

　　[12]  Q. Yang, B. L. Xiao, Z. Y. Ma*, R. S. Chen, Achieving high strain rate superplasticity in Mg-Zn-Y-Zr alloy produced by friction stir processing. Scripta Materialia, 65, 4, 335-338, 2011.

　　[13]  B. L. Xiao, Q. Yang, J. Yang, W. G. Wang, G. M. Xie, Z. Y. Ma*, Enhanced mechanical properties of Mg-Gd-Y-Zr casting via friction stir processing. Journal of Alloys and Compounds, 509, 6, 2879-2884, 2011.

　　[14]  Z. Y. Liu, Q. Z. Wang, B. L. Xiao*, Z. Y. Ma, Clustering model on the tensile strength of PM processed SiCp/Al composites. Composites A, 41, 11, 1686-1692, 2010.

　　[15] Z. Y. Liu, Q. Z. Wang, B. L. Xiao*, Z. Y. Ma, Y. Liu, Experimental and modeling investigation on SiCp distribution in powder metallurgy processed SiCp/2024 Al composites. Materials Science and Engineering A, 527, 21-22, 5582-5591, 2010.