[1]
|
YANGJ X,ZUO T Ch,WANG X B,et al.The repairing and strengthening of 9Cr2Mo cold rolls by laser wide-strip cladding method[J].Applied Laser,2008,28(1):1-5(in Chinese). |
[2]
|
FERNANDE E,FERNANDEZ E,CADENAS M,et al.Wear behaviour of laser clad NiCrBSi coating[J].Wear,2005,259(7/12):870-875. |
[3]
|
GUAN Zh Zh.Laser processing manual[M].Beijing:China Metrology Publishing House,1998:255-307(in Chinese). |
[4]
|
WANG Z P,HU F Y,HU B,et al.Research on laser cladding super alloy K418 by multipass and multi-layer mcthod[J].New Technology & New Procss,2009(4):78-80(in Chinese). |
[5]
|
DESALE G R,PAUL C P,GANDH B K,et al.Erosion wear behavior of laser clad surfaces of low carbon austcnitic steel[J].Wear,2009,266(9/10):975 987. |
[6]
|
MASANTA M,GANESH P,KAUL R,et al.Development of a hard nano-structured multi-component ceramic coating by laser cladding[J].Materials Science and Engineering,2009,A508(1/2):134-140. |
[7]
|
LI Sh,ZENG X Y,HU Q W.Influence of multilayer cladding on microshucture and hardness of laaer-clad layers[J].Heat Treatment of Metal,2007,32(7):4447(in Chinese). |
[8]
|
NIINO M,HIRAI T,WATANABE R.Functionally gradient materials[J].Japan Society for Composite Materials,1987,13(6):257-264. |
[9]
|
YUAN Q L,HU R,LI J Sh,et al.Progress in manufacturing technology of functionally graded materials[J].Ordnance Material Science and Enpneering,2003,26(6):66-69(in Chinese). |
[10]
|
DONG J,LIU F,CHENG S Y,et al.Preparation of Co-Ni-Cu gradient coatings by CO2 laser cladding on copperplate[J].Journal of Northeastem University,2008,29(11):1581-1584(in Chinese). |
[11]
|
ZHANG Y Zh,XI M Zh,SHI L K.Multi-Iayer functional gradient materials of 316L stainless ateel to Stellite 31 alloy prepaned by laaer clad depoaition[J].Heat Treatment of Metal,2007,32(9):45-47(in Chinese). |
[12]
|
S RN O,ANDREAS W,INGOMAR K.Functionally gaded multilayers by laeer cladding for increased wear and corrosion protection[J].Physics Procedia,2010,5(1):359-367. |
[13]
|
HUANG W R,XIAO Z H.Current status of laser cladding about ceramic coating[J].Surface Technology,2009,38(4):57-59(in Chinese). |
[14]
|
LIU Y H,GUO Z X,YANG Y,et al.Laser a pulaed Nd:YAG cladding of A291D magnesium alloy with Al and Al2O3 powders[J].Applied Suface Science,2006,253(4):1722-1728. |
[15]
|
MONTEMOR M F,SIMOES A M,CARMEZIM M J.Characterization of rare earth conversion films formed on the A231 magnesium alloy and its relation with cormsion protection[J].Applied Surface Science,2007,253(16):6922-6931. |
[16]
|
LIU D,UU Q B.Preparation and bioactivity of bioceramic gradient coating by wide-band laser cladding[J].Infrared and Laaer Engi nemng,2010,39(4):741-745(in Chinese). |
[17]
|
HUANG F X,JIANG L,JIANG D M.Effect of rare earth element on microstructure and pmperties oflaser cladding[J].Casting Forging Welding,2008,37(17):119-121(in Clunese). |
[18]
|
SHENG Y F,HUANG Y H,YU Ch Y,et al.Microstructure of nano-TiAl coating on low carbon steel surface processed through laser melting[J].Laser Journal,2005,26(2):70-71(in Chinese). |
[19]
|
YAN Y G,LI M X,ZHANG Sh H,et al.Effect of nano-CeO2 on nucrostructure and corroaion resistance of Ni-based alloy coating by laser-melting[J].Journal of The Chinese Rare Earth Society,2007,25(5):620-624(in Chinese). |
[20]
|
XU G J,MUNNAHARU K,LIU Zh J,et al.Characteristic behavioun of clad layer by a multi-layer laaer cladding with powder mixture of Stellite-6 and tungsten carbide[J].Surface & Coatings Technology,2006,201(6):3385-3392. |