Powder bed fusion manufacturing of beta-type titanium alloys for biomedical implant applications: A review
Thanks to many fascinating properties, such as high mechanical properties, good corrosion
resistance, and excellent biocompatibility, beta-type Ti alloys are frequently employed as …
resistance, and excellent biocompatibility, beta-type Ti alloys are frequently employed as …
Additive manufacturing of aluminum alloys for aeronautic applications: Advantages and problems
R Montanari, A Palombi, M Richetta, A Varone - Metals, 2023 - mdpi.com
In aeronautics, additive manufacturing (AM) leads to specific benefits, mainly connected to
topological optimization for weight reduction, the decrease in “buy-to-fly” ratio, and the …
topological optimization for weight reduction, the decrease in “buy-to-fly” ratio, and the …
[HTML][HTML] Machine learning for advancing laser powder bed fusion of stainless steel
In the dynamic landscape of advanced manufacturing, the confluence of laser powder bed
fusion (LPBF) and machine learning (ML) has recently garnered significant attention in many …
fusion (LPBF) and machine learning (ML) has recently garnered significant attention in many …
[HTML][HTML] Metallurgical analysis of laser powder bed-fused Al–Si–Mg alloys: Main causes of premature failure
Abstract AlSi7Mg and AlSi10Mg are the most used alloys to manufacture Laser Powder Bed
Fusion lightweight components. These products have high specific strengths but a …
Fusion lightweight components. These products have high specific strengths but a …
Advances in computational modeling for laser powder bed fusion additive manufacturing: A comprehensive review of finite element techniques and strategies
The laser powder bed fusion process, a prominent additive manufacturing method, involves
intricate thermal dynamics and stress distribution. Despite the mature knowledge base in …
intricate thermal dynamics and stress distribution. Despite the mature knowledge base in …
Strong and ductile nanoscale Ti-1Fe dual-phase alloy via deformation twinning
A nanoscale Ti-1Fe dual-phase alloy was fabricated by laser powder bed fusion. The
microstructure, phase constituent, and tensile properties of this alloy were examined to …
microstructure, phase constituent, and tensile properties of this alloy were examined to …
[HTML][HTML] Towards material and process agnostic features for the classification of pore types in metal additive manufacturing
The manufacturing of metal parts via powder-bed fusion is often still facing quality issues
due to microstructural porosity. Minimizing this porosity remains a priority and requires the …
due to microstructural porosity. Minimizing this porosity remains a priority and requires the …
Aging profiles of AlSi7Mg0. 6 and AlSi10Mg0. 3 alloys manufactured via laser-powder bed fusion: direct aging versus T6
The artificial aging heat treatments performed directly on as-built and solubilized AlSi7Mg0.
6 and AlSi10Mg0. 3 samples were characterized and discussed. The analysed bars and …
6 and AlSi10Mg0. 3 samples were characterized and discussed. The analysed bars and …
Effect of surface roughness and industrial heat treatments on the microstructure and mechanical properties of Ti6Al4V alloy manufactured by laser powder bed fusion …
The emergence of powder bed fusion in recent years has made it one of the most demanded
additive manufacturing technologies for Ti6Al4V alloys in the biomedical and aerospace …
additive manufacturing technologies for Ti6Al4V alloys in the biomedical and aerospace …
Static and dynamic precipitation phenomena in laser powder bed-fused Ti6Al4V alloy
The present paper investigates static and dynamic precipitation phenomena in the Ti6Al4V
alloy produced via laser-powder bed fusion, solubilized at 1050° C and aged in the range of …
alloy produced via laser-powder bed fusion, solubilized at 1050° C and aged in the range of …