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Materials, Composite Tooling, Engineering, Jigs&Fixtures, LPBF (DMLS) 3D Printing Materials, Manufacturing, Medical, Metal Powders 3D Printing Materials, Titanium · Metal LPBF

Ti64 Titanium Alloy Powder for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

Lightweight. High strength-to-weight. Biocompatible. Genuine AVIMETAL Ti-6Al-4V (Grade 5) titanium for LPBF metal 3D printing.
  • ✓ Gas-atomized, low-oxygen — full COA on every lot
  • ✓ Strong value alternative, sold in small workable volumes
  • ✓ Fast dispatch from Los Angeles (ELI / Grade 23 on request)

$1,280

Price held 7 days after order.
NDA standard 10–20 business days
60+AM teams supplied
Lot-to-lotstable PSD & chemistry
COA + parametersin every order
Fast dispatchL.A. stock · M–F
Built for production teams

What your process engineer actually checks

Locked, traceable lot chemistry

Every lot ships with a COA documenting PSD, sphericity, flow rate, apparent density, and full chemistry — and a lot number you can trace. Aerospace and medical teams reorder 4+ times without re-qualifying.

A materials engineer on the line

Questions on ferrite content, flowability, recyclate ratios, or HIP response? A materials engineer answers directly — not a contact-form bot. Most replies in under 4 hours, NDA standard.

About this product

AVIMETAL Ti-6Al-4V (Ti64, Grade 5) is the workhorse titanium alloy for laser powder bed fusion (LPBF): an outstanding strength-to-weight ratio, good corrosion resistance and excellent biocompatibility, for demanding aerospace, medical and motorsport parts.

Produced by AVIMETAL, a leading specialist manufacturer of additive-manufacturing metal powders with in-house liquid-metal atomization and a strong aerospace and medical track record.

Why teams buy this powder from Additive Plus

  • Genuine AVIMETAL Ti-6Al-4V — gas-atomized for high sphericity, low oxygen and consistent flow.
  • A strong value alternative to premium Western titanium powders, at an accessible, published price.
  • Available in small, workable volumes — no large mill minimums.
  • Full COA with every lot — PSD, chemistry, apparent density and flow rate, with a traceable lot number.
  • Fast dispatch from Los Angeles. Need ELI / Grade 23 or a tighter cut? Ask us — we also run our own atomization.

Standards & equivalents

  • Made to the Ti-6Al-4V Grade 5 specification: ASTM F2924 / B348 · UNS R56400 · TC4 · 3.7165
  • Machine type: F — LPBF · Particle size: 15–45 µm (custom cuts available) · Bottle: 10 kg / 22 lbs
  • Quality: gas-atomized on dedicated AVIMETAL lines for high sphericity and low oxygen; processed under argon; full COA per lot.

Chemical composition

Typical chemistry (wt%) for Ti-6Al-4V Grade 5:

Element Content Element Content
Titanium (Ti) Balance Carbon (C) ≤ 0.08%
Aluminum (Al) 5.50–6.75% Nitrogen (N) ≤ 0.05%
Vanadium (V) 3.50–4.50% Hydrogen (H) ≤ 0.015%
Iron (Fe) ≤ 0.30% Oxygen (O) ≤ 0.20%

Heat treatment & processing

  • Process under argon shielding gas — titanium is reactive and must be handled accordingly.
  • Stress relief / annealing is commonly applied; HIP is often used for fatigue-critical parts.
  • Superior weldability in laser AM.

Key performance benefits

  • High strength-to-weight ratio
  • Wear and corrosion resistant
  • Good fracture toughness and fatigue resistance
  • Excellent biocompatibility
  • Superior weldability in laser AM

Typical applications

  • Aircraft and spacecraft structural components
  • Gas-turbine engine parts
  • Orthopedic and dental implants, surgical tools
  • Automotive and motorsport components

Material comparison: Ti64 vs CoCrMo vs 316L

Feature Ti-6Al-4V CoCrMo 316L
Weight Light Heavy Heavy
Strength-to-weight Excellent Good Moderate
Wear resistance Good Excellent Moderate
Biocompatible Excellent Yes Yes
Typical use Aerospace, implants Wear-critical implants Corrosion-critical
Brand Avimetal
Technology Metal LPBF
Powder Package 10 kg bottle
PSD (particle size distribution) 15–53 micrometres
Printing Materials Metal Powders
Material Ti-6Al-4V Grade 23 (ELI), Ti-6Al-4V Grade 5 (TC4)
Country of origin China
Production Method EIGA (Electrode Induction Gas Atomization)
Don't see your spec?

We atomize our own. Custom variants on request.

Tighter PSD, modified chemistry, custom blend? Our ATO atomization lab runs custom batches in 3–4 weeks. Biocompatible, refractory, proprietary — all in-house, verified before ship.

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High-purity Ti-6Al-4V build plate engineered for EOS M280 and M290 systems. Designed for contamination-free titanium printing with stable thermal behavior and repeatable LPBF performance. Need a build platform for a different printer model or custom dimensions?
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  • ✓ For reactive AM powder (Al, Ti, Mg) — the safe alternative to a dry vacuum
  • ✓ Two-stage antistatic filtration + grounded construction · ATEX docs on request
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Automated 2-in-1 blasting cell that depowders and surface-finishes powder-bed 3D-printed parts in one enclosed, software-controlled cycle.

  • ✓ Depowdering + surface finishing in one ATEX-compliant cell
  • ✓ Polymer PBF (SLS, MJF, HSS, SAF) + de-powdered metal parts
  • ✓ Lead time: 6–9 weeks — built to order · install + training included
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CoCrMo Powder - Cobalt Chrome Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs
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High-strength. Wear-resistant. Biocompatible. Genuine AVIMETAL CoCrMo cobalt-chrome (ASTM F75) for LPBF metal 3D printing.
  • ✓ Gas-atomized, low-oxygen — full COA on every lot
  • ✓ Non-magnetic / MRI-safe; strong value alternative
  • ✓ Small workable volumes · fast dispatch from L.A.
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1 / 1
Not ready for a full bottle? Request a sample or a custom quantity.

From process engineers running Ti64 Titanium Alloy Powder for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

Unedited feedback from customers who reorder Ti64 Titanium Alloy Powder for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs.

★★★★★ 4.9 / 5 · 24 reviews
★★★★★

Same lot 4 times in a row. We stopped re-running parameter sweeps after the second order — density was identical to the first build.

MK
Marcus K. Process Engineer · Aerospace OEM
★★★★★

Asked about ferrite content on a Friday. A materials engineer answered Monday morning with actual data, not a sales pitch. That's why we keep ordering.

PS
Priya S. R&D Lead · Medical Devices
★★★★★

COA matches the bottle. PSD and flow are exactly what was on the sheet — we run it on a Renishaw 500Q and it hits density on the first try.

DR
Diego R. Production Lead · Energy

Common questions

Don't see yours? Email [email protected] — NDA standard, typical reply within 4 hours.

What is the difference between Ti-6Al-4V Grade 23 and Grade 5?
Grade 23 has lower oxygen and interstitial content, resulting in better ductility and fracture toughness. Grade 5 offers higher strength and hardness, making it suitable for structural applications.
Which grade should I choose for medical applications?
Grade 23 is typically preferred for medical implants due to its enhanced biocompatibility and fatigue performance.
Yes. Both grades are widely used in serial production and qualified AM workflows
Yes. Both grades are widely used in serial production and qualified AM workflows
Can these powders be heat treated after printing?
Yes. Post-processing heat treatments are commonly applied to tailor mechanical properties for specific applications.
Which industries commonly use Ti-6Al-4V in AM?
Aerospace, medical, industrial manufacturing, and energy sectors.
What types of parts are typically produced using Ti64 titanium alloy?
Common applications include implants, surgical instruments, turbine engine components, aircraft and spacecraft parts, and automotive/motorsport components.
Is Ti64 titanium alloy easy to weld and post-process?
Yes. Ti64 supports laser-based additive manufacturing and can be machined, welded, and surface-finished post-production.
Why choose Ti64 titanium alloy over other titanium alloys?
Ti64 titanium alloy offers an optimal combination of high strength-to-weight, corrosion resistance, fatigue resistance, biocompatibility, and additive manufacturing compatibility.

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