Production of Ti-10V-2Fe-3Al for Aerospace Application from Ti-Al Pre-Alloyed Powder

Eliane Silveira Romagnolli Araujo; Jamilson Oliveira Costa; Raphael Oliveira Pires de Lima; Vinicius André Rodrigues Henriques

doi:10.4028/www.scientific.net/MSF.802.323

Paper Titles

Analysis of the Collection Efficiency of Fiber Filters on the Filtration of Nano-Sized Particles from Aerosol
p.297

Behaviour of Fluids in Porous Materials
p.303

Fe-hBN Composites Produced by Double Pressing and Double Sintering
p.311

Densification Behaviour Modelling for Metallic Powders
p.317

Production of Ti-10V-2Fe-3Al for Aerospace Application from Ti-Al Pre-Alloyed Powder
p.323

Characterization of Commercial Co-Cr-Alloy Powder Used in Selective Laser Sintering
p.329

Influence of the Temperature in the Direct Forming Laser Process of 316L Stainless Steel with CO₂ Laser
p.334

Selective Laser Sintering of Different Powders of Co-Cr-Mo
p.338

Atomization and Selective Laser Melting of a Cu-Al-Ni-Mn Shape Memory Alloy
p.343

HomeMaterials Science ForumMaterials Science Forum Vol. 802Production of Ti-10V-2Fe-3Al for Aerospace...

Production of Ti-10V-2Fe-3Al for Aerospace Application from Ti-Al Pre-Alloyed Powder

Abstract:

Titanium is found in its raw form in nature mainly in rutile, ilmenite, and anatase which appears in abundant quantities in the earth crust. However, its extraction through the conventional process is still very expensive. Powder metallurgy has been used as an alternative technique for production of titanium alloys parts due to its low cost compared with conventional melting techniques. The process involves the use of powders under high pressure and temperature. Using this technique, Ti-10V-2Fe-3Al samples were produced from Ti-Al pre-alloyed powder with additions of different contents of aluminum in order to study the influence of aluminum particles on the formation of residual porosity. After cold uniaxial and isostatic pressing and sintering at 1100°C and 1400oC, samples were characterized by SEM (Scanning Electron Microscopy), XRD (X-ray Diffraction), EDS (Energy Dispersive Spectrometry) and density analyses. Sintered samples presented homogeneous microstructure and increased densification due to increased content of Ti-Al pre-alloyed powder.