[1] |
DING L,LI M X. Numerical simulation of temperature field of laser cladding Co-based alloy coatings[J]. Laser Technology,2012,36(1): 103-106(in Chinese). |
[2] |
SONG J, HUANG Y, PANG Zh H. Study on wear properties of Fe-based alloy coating by laser cladding[J]. Laser Technology,2010,34(3): 331-334(in Chinese). |
[3] |
DING L,ZHU X Ch,LI M X. Numerical simulation of laser cladding Co-based alloy on the surface of copper[J]. Special Casting Nonferrous Alloys,2011,31(8): 710-714(in Chinese). |
[4] |
DING L,HUANG D Y,LI M X. Temperature field distribution of laser cladding Co-based alloy on the surface of copper[J]. Heat Treatment of Metals,2011,36(11): 114-118(in Chinese). |
[5] |
TABERNERO A, LAMIKIZ S, MARTINEZ E,et al. Modelling of energy attenuation due to powder flow-laser beam interaction during laser cladding process[J]. Journal of Materials Processing Technology,2011,212(12): 516-522. |
[6] |
CHEN B S. Computer-aided welding technique[M]. Beijing: China Machine Press,1999: 107-168(in Chinese). |
[7] |
GAO Y D,HE X. Simulation of welding based on ANSYS unit birth and death technology[J]. Hot Working Tchnology,2010,39(7): 120-126(in Chinese). |
[8] |
ZHANG J,SONG J L,LI Y T. Numerical simulation of temperature field in multi-track overlapping power-feding laser cladding[J]. Heat Treatment of Metals,2012,37(10): 87-91(in Chinese). |
[9] |
ZHANG D W,ZHANG X P. Solidification microstructure feature of the laser clad Ni and Ni+Cr3C2 alloy[J]. Translations of Materials and Heat Treatment,2009,30(2):152-157(in Chinese). |
[10] |
WANG Z P,HU F Y,HU B,et al. Research on laser cladding super-alloy K418 by multi-pass and multi-layer method[J]. New Technology New Process,2009(4):78-80(in Chinese). |