2024 Powder Metallurgy World Congress & Exhibition

Presentation information

General Sessions (Oral) » T20 Materials Characterization of AM Materials

[T20] Materials Characterization of AM Materials

Oral

Mon. Oct 14, 2024 4:50 PM - 6:30 PM Room D (3F 304, Conference Center)

Chairpersons: Katsuyoshi Kondoh (Osaka University, Japan), Noriharu Yodoshi (Kyushu University, Japan)

5:50 PM - 6:10 PM

[14D-T20-04] Low Alloy Titanium: A Sustainable Alternative for Laser Powder Bed Fusion

*J. Huang1,2, A. Issariyapat2, S. Kariya2, J. Umeda2, K. Kondoh2 (1.Graduate School of Engineering, Osaka University, Japan, 2.Joining and Welding Research Institute, Osaka University, Japan)

Keywords:Additive Manufacturing, Lean Alloys, Mechanical Properties, Sustainability, Cost-effectiveness

Additively manufactured (AM) alpha-beta titanium alloys produced by laser powder-bed fusion (L-PBF) typically exhibit fine acicular microstructures due to the intrinsically fast-cooling rates of the process. In solute-rich alloys such as Ti-6Al-4V, this extreme grain refinement can severely reduce plasticity (fracture strains < 10%), thereby exposing parts to catastrophic engineering failures. In pursuit of a superior strength-ductility balance, we investigated the L-PBF processing of compositionally lean Ti-alloys containing small fractions of common iron and nitrogen solutes (beyond the standards of commercial purity). Despite their traditionally low wrought strengths, these near-purity alloys are shown to pair well with the grain refinement effects of L-PBF to produce mechanical properties on par with wrought Ti-6Al-4V (strengths > 825 MPa, fracture strains > 10%), indicating a strong compatibility with AM processing. Meanwhile these compositions are rare-metal free, and simple to recycle, thereby offering a cheap and sustainable alternative for use in titanium AM.