论文信息 - CFD MODEL OF LASER ADDITIVE MANUFACTURING PROCESS OF CYLINDERS

CFD MODEL OF LASER ADDITIVE MANUFACTURING PROCESS OF CYLINDERS

A theoretical approach based on a numerical simulation using experimental data is proposed as a contribution to the study of laser-based additive manufacturing by direct energy deposition (DED). The aim is to simulate the stages of layer-by-layer build-ups by considering the induced generated liquid metal in a cylindrical geometry. For normal atmospheric conditions, a 3D model is developed using the finite volumes method to solve the governing equations of the occurring fluid flows and heat transfers. The model is based on the experimental work performed on the LENS system at the Council for Scientific and Industrial Research’s (CSIR) National Laser Centre (NLC), where Ti-6Al-4V cylindrical coupons are laser printed and characterised.

[1] Amitava De,et al. Three-dimensional heat transfer analysis of LENSTM process using finite element method , 2009 .

[2] Boris Wilthan,et al. Thermophysical Properties of Solid and Liquid Ti-6Al-4V (TA6V) Alloy , 2006 .

[3] Eckhard Beyer,et al. Laser cladding using high-power diode lasers , 1998 .

[4] Michel Rappaz,et al. A thermal model of laser cladding by powder injection , 1992 .

[5] R. Fabbro,et al. Analytical and numerical modelling of the direct metal deposition laser process , 2008 .

[6] Ian G. Wright,et al. Laser-processed composite metal cladding for slurry erosion resistance , 1984 .

[7] E. Toyserkani,et al. 3-D finite element modeling of laser cladding by powder injection: effects of laser pulse shaping on the process , 2004 .