Methods and materials for additive manufacturing: A critical review on advancements and challenges
MB Kumar, P Sathiya - Thin-Walled Structures, 2021 - Elsevier
Additive Manufacturing (AM) is the significantly progressing field in terms of methods,
materials, and performance of fabricated parts. Periodical evaluation on the understanding …
materials, and performance of fabricated parts. Periodical evaluation on the understanding …
[HTML][HTML] Additive manufacturing of Ti6Al4V alloy: A review
In this paper, the recent progress on Ti6Al4V fabricated by three mostly developed additive
manufacturing (AM) techniques-directed energy deposition (DED), selective laser melting …
manufacturing (AM) techniques-directed energy deposition (DED), selective laser melting …
In situ design of advanced titanium alloy with concentration modulations by additive manufacturing
Additive manufacturing is a revolutionary technology that offers a different pathway for
material processing and design. However, innovations in either new materials or new …
material processing and design. However, innovations in either new materials or new …
[HTML][HTML] Design of titanium alloys by additive manufacturing: A critical review
T Zhang, CT Liu - Advanced Powder Materials, 2022 - Elsevier
Additive manufacturing (AM) is an innovative technology that creates objects with a complex
geometry layer-by-layer, and it has rapidly prospered in manufacturing metallic parts for …
geometry layer-by-layer, and it has rapidly prospered in manufacturing metallic parts for …
Development of a high strength Zr/Sc/Hf-modified Al-Mn-Mg alloy using Laser Powder Bed Fusion: Design of a heterogeneous microstructure incorporating synergistic …
Q Li, G Li, X Lin, D Zhu, J Jiang, S Shi, F Liu… - Additive …, 2022 - Elsevier
Abstract Laser Powder Bed Fusion (L-PBF) provides great advantages in creating
supersaturated solid solutions due to its intrinsic ultrafast cooling and high solidification rate …
supersaturated solid solutions due to its intrinsic ultrafast cooling and high solidification rate …
[HTML][HTML] Microstructural engineering of a dual-phase Ti-Al-V-Fe alloy via in situ alloying during laser powder bed fusion
Abstract When 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 …
martensitic α'-Ti grains are formed within the columnar prior β-Ti grains, resulting in inferior …
Hierarchical nano-martensite-engineered a low-cost ultra-strong and ductile titanium alloy
Due to the low thermal stability of crystallographic boundaries, the grain boundary
engineering (GBE) manifests some limits to the fineness and types of microstructures …
engineering (GBE) manifests some limits to the fineness and types of microstructures …
Friction stir welding of titanium alloys: A review
The candidacy of ninth earth abundant material, titanium is supreme when it comes to the
higher strength to weight ratio, and higher corrosive resistance. Next generation of jet …
higher strength to weight ratio, and higher corrosive resistance. Next generation of jet …
[HTML][HTML] Strain-rate effects and dynamic behavior of high entropy alloys
The novel class of multicomponent alloys, also known as high-entropy alloys (HEAs)
exhibits excellent properties under low strain-rate conditions. These are especially revealed …
exhibits excellent properties under low strain-rate conditions. These are especially revealed …
Micromechanical behavior and thermal stability of a dual-phase α+ α'titanium alloy produced by additive manufacturing
In order to improve the tensile properties of additively manufactured Ti-6Al-4V parts, specific
heat treatments have been developed. Previous work demonstrated that a sub-transus …
heat treatments have been developed. Previous work demonstrated that a sub-transus …