Add to ORKGMetal additive manufacturing technologies are widely employed in the aerospace, automotive and medical industries. Selective laser melting is a type of metal additive manufacturing process in which powders are consolidated layer by layer in a predefined pattern with the help of a laser beam to create a component. Powder characteristics are critical in influencing the quality of the printed component. Metal powders must be within a specific size range and have spherical morphology to exhibit good flow and spread behaviour during the additive manufacturing process. It is necessary to understand the flow behaviour to comprehend the powder’s performance during the process. The study investigates the effect ...
Additive manufacturing (AM) processes (including Powder-Bed, Powder-Blown and HPCS), use powders as ...
The aim of this master thesis project was to statistically correlate various powder characteristics ...
Laser-Powder Bed Fusion (L-PBF) of metallic parts is a highly multivariate process. An understandin...
Metal additive manufacturing technologies are widely employed in the aerospace, automotive ...
Powder metallurgy is a growing field with much potential. The core purpose and problem in this work ...
With rising interest in metal additive manufacturing and, specifically, in powder bed fusion process...
Additive manufacturing technologies are widely used in aerospace, space, and turbine indus...
Additive manufacturing with the use of metals have been a steadily increasing field, being able to c...
Additive manufacturing (AM) is today in the main focus – and not only in commercial production. Prod...
Metal additive manufacturing (AM) can produce complex parts that were once considered impossible or ...
As the manufacturing industry looks for better ways to create complex parts using sustainable and ef...
Achieving the optimal quality for Additive Manufactured (AM) parts does not only depend on setting t...
This thesis focuses on the topic of PBF-LB applied to titanium alloys. Of allalloys, an α + β is cho...
International audienceThe quality requirements for industrial parts produced by additive manufacturi...
The production of metal powder is of paramount importance in additive manufacturing (AM) procedures,...
Additive manufacturing (AM) processes (including Powder-Bed, Powder-Blown and HPCS), use powders as ...
The aim of this master thesis project was to statistically correlate various powder characteristics ...
Laser-Powder Bed Fusion (L-PBF) of metallic parts is a highly multivariate process. An understandin...
Metal additive manufacturing technologies are widely employed in the aerospace, automotive ...
Powder metallurgy is a growing field with much potential. The core purpose and problem in this work ...
With rising interest in metal additive manufacturing and, specifically, in powder bed fusion process...
Additive manufacturing technologies are widely used in aerospace, space, and turbine indus...
Additive manufacturing with the use of metals have been a steadily increasing field, being able to c...
Additive manufacturing (AM) is today in the main focus – and not only in commercial production. Prod...
Metal additive manufacturing (AM) can produce complex parts that were once considered impossible or ...
As the manufacturing industry looks for better ways to create complex parts using sustainable and ef...
Achieving the optimal quality for Additive Manufactured (AM) parts does not only depend on setting t...
This thesis focuses on the topic of PBF-LB applied to titanium alloys. Of allalloys, an α + β is cho...
International audienceThe quality requirements for industrial parts produced by additive manufacturi...
The production of metal powder is of paramount importance in additive manufacturing (AM) procedures,...
Additive manufacturing (AM) processes (including Powder-Bed, Powder-Blown and HPCS), use powders as ...
The aim of this master thesis project was to statistically correlate various powder characteristics ...
Laser-Powder Bed Fusion (L-PBF) of metallic parts is a highly multivariate process. An understandin...