The significance of deposition point standoff variations in multiple-layer coaxial laser cladding (coaxial cladding standoff effects)
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[1] John O. Milewski,et al. Properties of near-net shape metallic components made by the directed light fabrication process , 1997 .
[2] K. Vaidyanathan,et al. Functional metal, ceramic, and composite prototypes by solid freeform fabrication , 2000 .
[3] G. K. Lewis,et al. Practical considerations and capabilities for laser assisted direct metal deposition , 2000 .
[4] W. Kurz,et al. Analysis of the laser-cladding process for stellite on steel , 1997 .
[5] Hans Engström,et al. Energy redistribution during CO2 laser cladding , 2002 .
[6] Jack Beuth,et al. Process Maps for Laser Deposition of Thin-Walled Structures , 1999 .
[7] Jehnming Lin. Laser attenuation of the focused powder streams in coaxial laser cladding , 2000 .
[8] Gerard Sliwinski,et al. Experimental study of a laser processing head with integrated jet of metal powder for rapid prototyping and production of protective coatings , 2001, International Symposium on High Power Laser Systems and Applications.
[9] Chris Bailey,et al. Study of Marangoni phenomena in laser-melted pools , 1995 .
[10] R. Vilar,et al. Physical–computational model to describe the interaction between a laser beam and a powder jet in laser surface processing , 2002 .
[11] Wilfried Kurz,et al. LASER METAL FORMING: PROCESS FUNDAMENTALS , 1996 .
[12] Ernst-Wolfgang Kreutz,et al. Rapid prototyping with CO2 laser radiation , 1995 .
[13] William M. Steen,et al. Moldless casting by laser , 1997, Other Conferences.
[14] Neil Hopkinson,et al. Rapid prototyping for direct manufacture , 2001 .
[15] Lin Li,et al. Modelling powder concentration distribution from a coaxial deposition nozzle for laser-based rapid tooling , 2004 .
[16] M. L. Griffith,et al. Investigation of Solidification in the Laser Engineered Net shaping (LENS) Process , 1999 .
[17] Gerard Sliwinski,et al. Multilayer laser cladding of metal powders for fast prototyping , 1999, Other Conferences.
[18] D. L. Greene,et al. Laser Engineered Net Shaping (LENS(TM)): A Tool for Direct Fabrication of Metal Parts , 1998 .
[19] Michel Rappaz,et al. Modeling of casting, welding and advanced solidification processes-V : proceedings of the fifth International Conference on Modeling of Casting and Welding Processes, held in Davos Switzerland, September 16-21, 1990 , 1991 .
[20] Noboru Kikuchi,et al. Closed loop direct metal deposition : art to part , 2000 .
[21] Kuang-Hua Chang,et al. Concurrent Design and Manufacturing for Mechanical Systems , 1999 .
[22] J. C. Jaeger,et al. Conduction of Heat in Solids , 1952 .
[23] M. L. Griffith,et al. Solidification in direct metal deposition by LENS processing , 2001 .
[24] F. G. Arcella,et al. Laser : Forming titanium components , 1998 .
[25] Gerald Albert Knorovsky,et al. Video Monitoring and Control of the LENS Process , 1999 .
[26] T. R. Anthony,et al. Heat treating and melting material with a scanning laser or electron beam , 1977 .
[27] J. Beuth,et al. The role of process variables in laser-based direct metal solid freeform fabrication , 2001 .