[1] Wang Huaming,Li Xiaoxuan,Sun Xijun et al.. Study of surface mechanical properties of laser shock processed austenitic steel and Ni-based superalloy[J]. Chinese J. Lasers,2000,A27(8):756-760
[2] M. F. Chiang,C. Chen. Induction-assisted laser welding of IN-738 nickel-base superalloy[J]. Materials Chemistry and Physics,2009,114(1):415-419
[4] X. C. Wang,Laouit,J. Bonse et al.. Direct selective laser sintering of hard metal powders:experimental study and simulation[J]. International Journal of Advance Manufacture Technology,2002,19:351-357
[6] Dong Shiyun,Ma Yunzhe,Xu Binshi et al.. Current status of material for laser cladding[J]. Materials Review,2006,20(6):5-9
[7] Li Xiangsheng,Shi Yusheng,Huang Shuhuai. Model of scanning laser energy and its distribution inselective laser sintering[J]. Laser Technology,2003,21(1):30-32
[8] Wang Xiangqing. Research on the Density Improvement and Micro-defect Elimination During DLMS[D]. Nanjing:Nanjing University of Aeronautics and Astronautics,2007
[9] X. Wang,J. P. Kruth. A simulation model for direct selective laser sintering of metal powders[J]. Computational Techniques for Materials,Composites and Structures,2000,(7):57-71
[10] Liu Ximing. Microstructure evolution of laser cladding with feeding powder for Co-based alloy in addition with WC in reheating and cooling process[J]. Rare Metal Materials and Engineering,2007,36(4):621-624
[11] Zhang Kun,Chen Guangnan. Evolution of rapidly solidified microstructure in SiCP/ A356 composites with laser radiation[J]. Acta Materiae Compositae Sinica,2000,17(1):115-118
[12] D. M. Stefanescu,B. K. Dhindaw,A. S. Kacar et al.. Behavior of ceramic particles at the solid2liquid metal interface in metal matrix composite [J]. Metall. Trans.,1988,19A(11):2847-2855
