Materials

Ti-6Al-4V — the alloy aerospace trusts.

Every Additiveio build uses AMS 4928-compliant Ti-6Al-4V ELI powder from qualified vendors. Powder chemistry, particle size, and chain of custody are documented in every delivery package.

Close-up of Ti-6Al-4V titanium alloy powder spherical particles used in laser powder bed fusion manufacturing
Mechanical Properties

Ti-6Al-4V ELI — LPBF printed, HIP'd

Values represent typical ranges per AMS 4928 and published LPBF + HIP literature. Actual material certs provided with every part shipment.

Property Condition Typical Range Reference
Ultimate Tensile Strength As-printed + HIP + anneal 930 – 1000 MPa AMS 4928
0.2% Yield Strength As-printed + HIP + anneal 860 – 950 MPa AMS 4928
Elongation at Break As-printed + HIP + anneal ≥ 10% AMS 4928
Reduction in Area As-printed + HIP + anneal ≥ 20% AMS 4928
Young's Modulus ~114 GPa ASTM B265
Density 4.43 g/cm³
Part Density (LPBF) Archimedes method > 99.5% Build spec
Hardness Post-HIP 30 – 36 HRC
Chain of Custody

Powder traceability — from vendor to build record

Aerospace procurement managers need to trace every kilogram of powder back to a qualified source. Our traceability chain covers three mandatory nodes.

Certified Powder Vendor

AMS 4928-compliant Ti-6Al-4V ELI powder. Supplier qualification record on file. Lot-level chemistry and particle size certificate of conformance required for every order.

Incoming Inspection

Particle size D10/D50/D90 verified by laser diffraction. Chemistry spot-check against vendor CoC. Flowability test before any build authorization. Results archived to powder lot ID.

Build Record Archive

Powder lot ID linked to build job number, linked to part serial number. Archived with the documentation package. Every part delivered can be traced to a specific powder lot and vendor CoC.

Need material data for your supply chain review?

Download our material spec sheet or submit an RFQ with your part requirements.

Submit an RFQ Request Spec Sheet