AS9100D Certified
ISO 9001:2015
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US Manufacturing
We supply titanium powders across the full alloy range: CP-Ti, Ti-6Al-4V, Grade 23, Ti-6242, and Ti-6246. Plasma atomized (PA), gas atomized (GA), and PREP options. PSD from -100+325 mesh through -400 mesh and finer, tailored to your AM process—SLM, EBM, HIP. All material tracks to US melt source, fully documented. AS9100D and ISO 9001:2015 certified. DFARS 252.225-7014 compliant. We understand the traceability and documentation your procurement team needs because we work with the same OEMs and Tier 1s you do.
AS9100D Certified
ISO 9001:2015
US Manufacturing
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ITAR-registered production. Melt-to-powder traceability. Full chain-of-custody documentation. No foreign material in your supply stream.
AS9100D certified. ISO 9001:2015 compliant. DFARS 252.225-7014 ready. Works with your existing qual matrix.
Non-standard particle size distributions. Short lead times. Minimum quantities—no forced bulk overages.
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Our team has atomization and material science background. Real answers on alloy selection, flowability tradeoffs, HIP parameters.
CP-Ti handles high-temperature geometry and heat transfer applications where strength isn’t the limiting factor. Ti-6Al-4V is your workhorse—most demanding turbine parts, compressor blades, landing gear fittings. Grade 23 goes into orthopedic implants and medical devices requiring ELI cleanliness. Ti-6242 and Ti-6246 are higher-strength variants for creep resistance above 650°C. Each has a different oxygen sensitivity and powder atomization sweet spot. We stock the most-requested grades and run custom melts on a 3-4 week cycle when your qualification calls for specific trace element control or narrower chemistry.
Every lot goes through ICP-OES elemental analysis, LECO oxygen/nitrogen/hydrogen testing, Hall flow measurement, apparent and tap density, laser diffraction PSD verification, and SEM inspection at 500x. Certificates of Analysis ship with material. Full melt traceability—we keep batch records for 15 years and link your powder back to the electrode or ingot. Gas contents are measured to ±50 ppm. Flow data is actual—not modeled. We don’t claim tight PSD if the distribution doesn’t back it.
Procurement runs clean. Stock material ships within 5 business days. Custom PSD work is quoted upfront with a fixed lead time—no surprises. We handle blanket agreements and can ship staged releases on your schedule. Minimum sample size is 250 grams for most alloys; we’ll run smaller batches for early-stage development if your contract allows. Material arrives under argon in stainless steel containers. Your receiving inspection data rarely surprises you because the material is consistent batch to batch.
Our team will respond within 24 hours with pricing and availability information.
Picking the right alloy and atomization method is half the game. Commercially pure titanium—CP-Ti or Grade 2—is lower strength but highly weldable and corrosion-resistant. Use it where thermal cycling and corrosion matter more than yield strength. Ti-6Al-4V (Grade 5) is the baseline for structural parts because it gives you 900+ MPa yield and stays stable to 300°C continuously. Plasma atomized Ti-6Al-4V tends to run slightly lower oxygen than gas atomized, which matters if your design margin is tight. Grade 23 is extra-low interstitial Ti-6Al-4V ELI—medical and high-reliability aerospace only. Ti-6242 and Ti-6246 are alpha-beta alloys designed for elevated temperature creep resistance above 600°C; they’re stiffer than Ti-6-4 but less ductile, so your design needs to account for that. PREP (plasma rotating electrode process) gives you the cleanest powder if your process specification demands it, but it costs 40-50% more than gas atomization and the lead time runs 6-8 weeks. Gas atomization is 95% of what we ship—fine particle distribution, consistent flow, and proven in thousands of parts. Particle size distribution drives sintering kinetics and final density; finer powders sinter faster and reach higher green density, but they flow worse. We can dial in the PSD for your specific layer thickness and beam speed.
Picking the right alloy and atomization method is half the game. Commercially pure titanium—CP-Ti or Grade 2—is lower strength but highly weldable and corrosion-resistant. Use it where thermal cycling and corrosion matter more than yield strength. Ti-6Al-4V (Grade 5) is the baseline for structural parts because it gives you 900+ MPa yield and stays stable to 300°C continuously. Plasma atomized Ti-6Al-4V tends to run slightly lower oxygen than gas atomized, which matters if your design margin is tight. Grade 23 is extra-low interstitial Ti-6Al-4V ELI—medical and high-reliability aerospace only. Ti-6242 and Ti-6246 are alpha-beta alloys designed for elevated temperature creep resistance above 600°C; they’re stiffer than Ti-6-4 but less ductile, so your design needs to account for that. PREP (plasma rotating electrode process) gives you the cleanest powder if your process specification demands it, but it costs 40-50% more than gas atomization and the lead time runs 6-8 weeks. Gas atomization is 95% of what we ship—fine particle distribution, consistent flow, and proven in thousands of parts. Particle size distribution drives sintering kinetics and final density; finer powders sinter faster and reach higher green density, but they flow worse. We can dial in the PSD for your specific layer thickness and beam speed.
Our lab runs six test suites on every batch. Inductively coupled plasma optical emission spectrometry (ICP-OES) confirms chemistry to ±0.05% for major elements and ±0.005% for critical trace elements like iron and silicon. LECO fusion analysis measures oxygen, nitrogen, and hydrogen—typically O/N/H around 600-800 ppm combined for PA material, slightly higher for GA. Laser diffraction gives you the actual PSD curve; we don’t report d10/d50/d90 unless the histogram backs it. Hall flow density and apparent/tap density are measured per ASTM B329 and B212. SEM inspection at 500x checks for satellite particles, unmelted fragments, and oxide film. Every certificate ships with full analytical data, not just pass/fail notes. Full traceability means we link your powder batch back to the original titanium sponge supplier or recycled electrode alloy, document the melt parameters (temperature, inert gas purity, crucible type), and keep that record for 15 years. If you need specific certification against AMS or Mil-spec, we manage those requirements; AS9100D audit trails and document control ensure your traceability chain is defensible in a Boeing or Lockheed audit. Custom chemistry runs (e.g., lowering iron for a specific OEM spec) are quoted with a short lead time and confirmed by the lab before shipment.
Standard alloys in common PSD ranges stock at our facility. You can place an order Monday morning and have material loaded and shipped by Friday. Custom PSD work—e.g., a tighter distribution for your specific EBM parameter set—is quoted with a fixed 3-4 week lead time and scheduled into our atomization calendar so there’s no guessing. We work with blanket purchase agreements, so you can set up a standing contract for Ti-6Al-4V -100+325 at a fixed price and then call in releases as your production ramps. Minimum quantities start at 5 kg for stock material; we’ll do smaller samples (250 g) for qualification runs if your contract allows. Material ships in stainless steel cans under argon or dry nitrogen depending on your spec. Packaging is MIL-spec compatible and designed to survive aerospace logistics. Your receiving inspection typically focuses on appearance, weight verification, and spot-checking PSD against the cert; the material rarely deviates because our QA is consistent. Lead times for orthopedic-grade or DFARS-controlled material run the same cycle but with additional documentation, so budget accordingly in your supply plan.
Our lab runs six test suites on every batch. Inductively coupled plasma optical emission spectrometry (ICP-OES) confirms chemistry to ±0.05% for major elements and ±0.005% for critical trace elements like iron and silicon. LECO fusion analysis measures oxygen, nitrogen, and hydrogen—typically O/N/H around 600-800 ppm combined for PA material, slightly higher for GA. Laser diffraction gives you the actual PSD curve; we don’t report d10/d50/d90 unless the histogram backs it. Hall flow density and apparent/tap density are measured per ASTM B329 and B212. SEM inspection at 500x checks for satellite particles, unmelted fragments, and oxide film. Every certificate ships with full analytical data, not just pass/fail notes. Full traceability means we link your powder batch back to the original titanium sponge supplier or recycled electrode alloy, document the melt parameters (temperature, inert gas purity, crucible type), and keep that record for 15 years. If you need specific certification against AMS or Mil-spec, we manage those requirements; AS9100D audit trails and document control ensure your traceability chain is defensible in a Boeing or Lockheed audit. Custom chemistry runs (e.g., lowering iron for a specific OEM spec) are quoted with a short lead time and confirmed by the lab before shipment.
Standard alloys in common PSD ranges stock at our facility. You can place an order Monday morning and have material loaded and shipped by Friday. Custom PSD work—e.g., a tighter distribution for your specific EBM parameter set—is quoted with a fixed 3-4 week lead time and scheduled into our atomization calendar so there’s no guessing. We work with blanket purchase agreements, so you can set up a standing contract for Ti-6Al-4V -100+325 at a fixed price and then call in releases as your production ramps. Minimum quantities start at 5 kg for stock material; we’ll do smaller samples (250 g) for qualification runs if your contract allows. Material ships in stainless steel cans under argon or dry nitrogen depending on your spec. Packaging is MIL-spec compatible and designed to survive aerospace logistics. Your receiving inspection typically focuses on appearance, weight verification, and spot-checking PSD against the cert; the material rarely deviates because our QA is consistent. Lead times for orthopedic-grade or DFARS-controlled material run the same cycle but with additional documentation, so budget accordingly in your supply plan.
Ready to discuss your titanium powder requirements? Our team provides fast RFQ turnaround, technical support, and competitive pricing on all alloys and particle size distributions. Contact us today.