Add to ORKGWhen Ti-6Al-4V is processed by laser powder bed fusion (L-PBF), acicular martensitic α’-Ti grains are formed within the columnar prior β-Ti grains, resulting in inferior mechanical properties. The application of blended powders in L-PBF enables to tailor the microstructures and obtain a mixture of α’ + β phases. In this work, we demonstrate an effective method to engineer the phase fraction of an L-PBF manufactured Ti alloy using blended powders consisting of Ti-6Al-4V and 3 wt% Fe particles. By varying laser parameters, the as-built microstructures transit from α’ dominated microstructure to a nearly complete β-dominant microstructure. High-speed operando X-ray diffraction during L-PBF processing combined with X-ray fluorescence and EBSD c...
In-situ alloying within laser powder-bed fusion, specifically Selective Laser Melting (SLM), has bee...
Additive manufacturing (AM) is particularly attractive for biomedical applications, where complex ge...
Additive manufacturing (AM) is particularly attractive for biomedical applications, where complex ge...
The aim of this work is to investigate the β-Ti-phase-stabilizing effect of vanadium and iron added ...
Ti-6Al-4V parts fabricated by laser powder-bed fusion (L-PBF) additive manufacturing often suffer fr...
The aim of this work is to investigate the β-Ti-phase-stabilizing effect of vanadium and iron a...
There remains a significant challenge in adapting alloys for metal-based additive manufacturing (AM)...
A detailed study was carried out to gain a better understanding of the microstructural differences b...
Microstructures dominated by acicular α' martensitic phase, such as in the case of Ti-6Al-4V fabrica...
There remains a significant challenge in adapting alloys for metal-based additive manufacturing (AM)...
There remains a significant challenge in adapting alloys for metal based Additive Manufacturing (AM)...
The present study comprehensively a investigates the correlations between the heat treatment process...
The present study comprehensively a investigates the correlations between the heat treatment process...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
In-situ alloying within laser powder-bed fusion, specifically Selective Laser Melting (SLM), has bee...
Additive manufacturing (AM) is particularly attractive for biomedical applications, where complex ge...
Additive manufacturing (AM) is particularly attractive for biomedical applications, where complex ge...
The aim of this work is to investigate the β-Ti-phase-stabilizing effect of vanadium and iron added ...
Ti-6Al-4V parts fabricated by laser powder-bed fusion (L-PBF) additive manufacturing often suffer fr...
The aim of this work is to investigate the β-Ti-phase-stabilizing effect of vanadium and iron a...
There remains a significant challenge in adapting alloys for metal-based additive manufacturing (AM)...
A detailed study was carried out to gain a better understanding of the microstructural differences b...
Microstructures dominated by acicular α' martensitic phase, such as in the case of Ti-6Al-4V fabrica...
There remains a significant challenge in adapting alloys for metal-based additive manufacturing (AM)...
There remains a significant challenge in adapting alloys for metal based Additive Manufacturing (AM)...
The present study comprehensively a investigates the correlations between the heat treatment process...
The present study comprehensively a investigates the correlations between the heat treatment process...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
In-situ alloying within laser powder-bed fusion, specifically Selective Laser Melting (SLM), has bee...
Additive manufacturing (AM) is particularly attractive for biomedical applications, where complex ge...
Additive manufacturing (AM) is particularly attractive for biomedical applications, where complex ge...