Add to ORKGIn an additive manufactured metallic part, distinct and different microstructure and mechanical properties may exist on different areas due to differences in shape and location. Two parts, one with straight-finned structure and one with curvefinned structure, were fabricated by selective electron beam melting method using prealloyed Ti-6Al-4V powder. Microstructural characterization of these two parts that have varying fin thickness and shape were carried out in order to investigate the synthetically influence of build geometry and in-fill hatching strategy on selective electron beam melting. It was found that the β-spacing is larger in the curve-finned structure, leading to a lower micro-hardness as compared to the straight-finned structur...
The application of additively manufactured titanium components is attractive due to a number of pote...
The microstructure and small-scale properties of horizontally and vertically printed Ti-6Al-4V alloy...
Powder bed additive manufacturing of titanium components offers several advantages. The high freedom...
In an additive manufactured metallic part, distinct and different microstructure and mechanical prop...
Electron beam melting (EBM) is one of the powder-bed fusion additive manufacturing technologies. Th...
An additive layer manufacturing (ALM) technique, electron beam melting, has been used for the produc...
An array of eight long Ti-6Al-4V rods (diameter: 12 mm; height: 300 mm) have been additively manufac...
Electron Beam Melting (EBM), a powder bed additive layer manufacturing process, was used to produce ...
With the demand of devices to replace or improve areas, such as: electronic, biomedical and aerospac...
With the demand of devices to replace or improve areas, such as: electronic, biomedical and aerospac...
The geometry and material properties of additively manufactured (AM) parts are closely related in a ...
Electron beam melting (EBM) is a layer by layer additive manufacturing technology, which has the cap...
The work presented in this dissertation is concerned with the microstructures and surface roughness ...
Selective electron beam melting (SEBM) is a metal additive manufacturing (AM) technique that can pro...
Reduction of the buy-to fly ratio through the utilisation of lean manufacturing processes for the ne...
The application of additively manufactured titanium components is attractive due to a number of pote...
The microstructure and small-scale properties of horizontally and vertically printed Ti-6Al-4V alloy...
Powder bed additive manufacturing of titanium components offers several advantages. The high freedom...
In an additive manufactured metallic part, distinct and different microstructure and mechanical prop...
Electron beam melting (EBM) is one of the powder-bed fusion additive manufacturing technologies. Th...
An additive layer manufacturing (ALM) technique, electron beam melting, has been used for the produc...
An array of eight long Ti-6Al-4V rods (diameter: 12 mm; height: 300 mm) have been additively manufac...
Electron Beam Melting (EBM), a powder bed additive layer manufacturing process, was used to produce ...
With the demand of devices to replace or improve areas, such as: electronic, biomedical and aerospac...
With the demand of devices to replace or improve areas, such as: electronic, biomedical and aerospac...
The geometry and material properties of additively manufactured (AM) parts are closely related in a ...
Electron beam melting (EBM) is a layer by layer additive manufacturing technology, which has the cap...
The work presented in this dissertation is concerned with the microstructures and surface roughness ...
Selective electron beam melting (SEBM) is a metal additive manufacturing (AM) technique that can pro...
Reduction of the buy-to fly ratio through the utilisation of lean manufacturing processes for the ne...
The application of additively manufactured titanium components is attractive due to a number of pote...
The microstructure and small-scale properties of horizontally and vertically printed Ti-6Al-4V alloy...
Powder bed additive manufacturing of titanium components offers several advantages. The high freedom...