What is Aluminum Alloy AlSi10Mg powder?

Aluminum Alloy AlSi10Mg is a high-performance metal 3D printing powder widely used in additive manufacturing. It combines lightweight properties with good mechanical strength, making it ideal for aerospace, automotive, molds, and medical applications.

Where can I purchase AlSi10Mg powder?

You can purchase AlSi10Mg metal 3D printing powder through Additive Plus in Los Angeles. Contact their team to request a quote for AO Metal powders.

What sizes are available for AlSi10Mg powder?

AlSi10Mg powder is packaged in 11.025 lbs (5 kg) vacuum-sealed bags, ideal for industrial or R&D use.

How much does AlSi10Mg powder cost?

The cost is $22.13 per pound or $48.8 per kilogram for high-quality AlSi10Mg powder.

What is the particle size distribution of AlSi10Mg powder?

The powder has a spherical shape with excellent fluidity and particle size distributions including 15-53 μm, 20-60 μm, and 50-150 μm.

What is the shape and fluidity of AlSi10Mg powder?

The powder is spherical and exhibits excellent flowability, ensuring consistent layering and high-quality 3D prints.

How is AlSi10Mg powder produced?

AlSi10Mg powder is produced using argon and nitrogen atomization processes. The process includes material selection, melting, atomization, filtering, collection, drying, grading, inspection, and packaging.

Which other aluminum alloys are available besides AlSi10Mg?

Other available aluminum powders include AlSi7Mg, AlSi12, AlMgSc, 7075, and 6061, suitable for diverse additive manufacturing applications.

What industries use AlSi10Mg powder?

AlSi10Mg is commonly used in aerospace, molds, automotive, medical instruments, and military applications.

Is AlSi10Mg powder compatible with metal 3D printers?

Yes, it is compatible with a variety of metal 3D printers, including AO Metal 3D printers, DMLS, and LPBF systems.

Can AlSi10Mg powder be used for R&D purposes?

Yes, AlSi10Mg powder is ideal for research and development, prototyping, and testing new designs or alloys in additive manufacturing labs.

What is the typical application of AlSi10Mg in aerospace?

In aerospace, AlSi10Mg powder is used for lightweight structural parts, components with complex geometries, and heat-resistant elements.

Is AlSi10Mg suitable for automotive parts?

Yes, it is used to produce lightweight, high-strength parts, prototypes, molds, and custom components in the automotive industry.

Can AlSi10Mg powder be used in medical instruments?

Yes, it is used to manufacture lightweight, precise, and durable components for medical instruments.

What is the benefit of vacuum packaging for AlSi10Mg powder?

Vacuum packaging protects the powder from moisture and contamination, ensuring quality and consistent printing performance.

What is the density of AlSi10Mg powder?

The density varies depending on particle size and manufacturing process, but it is optimized for high packing density and uniform layering in metal 3D printing.

Can AlSi10Mg powder be reused in 3D printing?

Yes, with proper sieving and handling, AlSi10Mg powder can be recycled for multiple print cycles, minimizing waste.

Is AlSi10Mg suitable for high-temperature applications?

Yes, it has good mechanical properties and heat resistance suitable for components exposed to elevated temperatures.

How should AlSi10Mg powder be stored?

Store in a dry, cool environment in vacuum-sealed bags or sealed containers to prevent moisture contamination.

What is the process for inspecting AlSi10Mg powder quality?

Quality inspection includes checking particle size distribution, sphericity, flowability, and chemical composition to ensure optimal performance.

Can AlSi10Mg powder be used in AO Metal 3D printers?

Yes, it is fully compatible with AO Metal 3D printers and other LPBF and DMLS systems.

What is the difference between AlSi10Mg and other aluminum alloys like AlSi7Mg or 7075?

AlSi10Mg offers a balance of lightweight properties, strength, and printability, while other alloys may have higher strength, corrosion resistance, or thermal properties depending on the specific application.

Is AlSi10Mg used in molds production?

Yes, AlSi10Mg is ideal for molds due to its precise printing capabilities, mechanical strength, and thermal stability.

Can AlSi10Mg be used in military applications?

Yes, it is used for lightweight, durable components in military and defense applications.

Does Additive Plus provide support for using AlSi10Mg powder?

Yes, Additive Plus offers technical support and guidance for using AlSi10Mg powder with metal 3D printers in Los Angeles and beyond.

What are the key benefits of using AlSi10Mg powder in metal 3D printing?

Key benefits include lightweight parts, excellent mechanical strength, good fluidity for consistent printing, wide industrial applications, and compatibility with high-precision AO Metal printers.

Is AlSi10Mg suitable for prototyping and production?

Yes, it is ideal for both prototyping and small to medium-scale production runs in aerospace, automotive, medical, and industrial applications.

How is AlSi10Mg powder shipped?

It is shipped in vacuum-sealed bags of 11.025 lbs (5 kg) to maintain quality during transport.

Can AlSi10Mg powder be used with other additive manufacturing alloys?

Yes, it can be integrated into workflows alongside other aluminum alloys like AlSi12, AlMgSc, 6061, 7075, depending on the desired material properties.

What is IN625 powder used for in Los Angeles metal 3D printing services?

IN625 powder is used in Los Angeles metal 3D printing services for manufacturing corrosion-resistant, high-strength parts for aerospace, automotive, marine, and industrial applications using LPBF technology.

Is IN625 powder suitable for industrial metal 3D printing in Los Angeles?

Yes, IN625 powder is widely used in Los Angeles industrial metal 3D printing due to its excellent thermal stability, corrosion resistance, and consistent LPBF process performance.

Can IN625 powder be used for aerospace parts manufacturing in Los Angeles?

Yes, IN625 powder is commonly used in Los Angeles aerospace manufacturing for turbine components, structural parts, and heat-resistant applications requiring high mechanical strength.

What makes IN625 powder ideal for LPBF 3D printing in Los Angeles?

IN625 powder has spherical particles, low oxygen content, and excellent flowability, making it ideal for LPBF 3D printing systems used in Los Angeles manufacturing facilities.

What is the particle size distribution of IN625 powder in Los Angeles supply?

IN625 powder is typically supplied in a 15–53 µm particle size range, optimized for consistent LPBF printing performance in Los Angeles industrial applications.

How is IN625 powder manufactured for Los Angeles industrial users?

IN625 powder is manufactured using Vacuum Induction Melting Gas Atomization (VIGA), ensuring high purity, spherical morphology, and stable performance for Los Angeles manufacturers.

Is IN625 powder corrosion resistant for marine applications in Los Angeles?

Yes, IN625 powder is highly corrosion resistant, making it suitable for marine and seawater-exposed components used in Los Angeles coastal and industrial environments.

What industries in Los Angeles use IN625 nickel alloy powder?

Industries in Los Angeles such as aerospace, defense, automotive, chemical processing, marine engineering, and energy rely on IN625 powder for critical metal components.

Can IN625 powder be used for chemical processing equipment in Los Angeles?

Yes, IN625 powder is widely used in Los Angeles chemical processing industries due to its resistance to oxidation, acids, and harsh operating conditions.

Does IN625 powder require heat treatment after 3D printing in Los Angeles workflows?

Yes, IN625 parts in Los Angeles manufacturing workflows are often heat treated to achieve optimal mechanical properties such as improved strength and hardness.

What mechanical properties does IN625 powder offer after processing?

After processing, IN625 powder can achieve tensile strength up to 865 MPa, yield strength of 470 MPa, and elongation up to 50%, making it suitable for demanding industrial use in Los Angeles.

Is IN625 powder suitable for high-temperature applications in Los Angeles manufacturing?

Yes, IN625 powder performs reliably in high-temperature environments up to 2000°F (1093°C), making it ideal for Los Angeles aerospace and industrial applications.

Can IN625 powder be used for automotive prototyping in Los Angeles?

Yes, IN625 powder is used in Los Angeles automotive prototyping for producing durable, heat-resistant, and corrosion-resistant metal components.

Is bulk supply of IN625 powder available in Los Angeles?

Yes, bulk supply of IN625 powder is available for Los Angeles manufacturers, supporting both prototyping and large-scale production requirements.

Why choose Additive Plus IN625 powder in Los Angeles?

Additive Plus provides validated IN625 powder for Los Angeles manufacturers with consistent quality, industrial-grade performance, and support for LPBF production workflows.

Can IN625 powder be used for tooling and fixtures in Los Angeles manufacturing?

Yes, IN625 powder is used in Los Angeles for producing durable tooling, jigs, and fixtures that require high wear resistance and thermal stability.

Is IN625 powder suitable for energy sector applications in Los Angeles?

Yes, IN625 powder is used in Los Angeles energy sector applications for components exposed to heat, pressure, and corrosive environments.

What post-processing methods are compatible with IN625 powder parts in Los Angeles?

IN625 parts in Los Angeles can undergo machining, heat treatment, polishing, and surface finishing depending on the application requirements.

Is IN625 powder stable during long LPBF build cycles in Los Angeles production?

Yes, IN625 powder maintains stable performance during long LPBF build cycles, making it reliable for industrial-scale production in Los Angeles facilities.

Does IN625 powder support complex geometries in Los Angeles metal 3D printing?

Yes, IN625 powder is ideal for producing complex geometries and intricate internal structures in Los Angeles metal 3D printing applications.

In stock

IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

In every order

Full lot COA — PSD, sphericity, flow rate, chemistry
Qualified parameter sets for the major LPBF systems
Mutual NDA before any file or spec review
Free U.S. shipping over $200 · fast dispatch from L.A.

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

IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

High-temp. Corrosion-proof. Non-magnetic. Genuine AVIMETAL IN625 (Inconel® 625) nickel superalloy for LPBF metal 3D printing.

✓ Strength & corrosion resistance to 2000°F (1093°C)
✓ Strong value alternative, sold in small workable volumes
✓ Full COA on every lot · fast dispatch from L.A.

$1,150

PSD (particle size distribution)

15–53 micrometres $1,150

Lot # and price held 7 days after order.

NDA standard Ships in 1–2 business days Spec-match guarantee on every lot

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.

Qualified parameters, not just powder

Validated parameter sets for EOS M 290, Renishaw 500Q, SLM 280, and our own AO Metal LPBF ship with the order. Load the profile and hit density on the first build — no parameter-development burn.

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 IN625 (Inconel® 625) is a non-magnetic, corrosion- and oxidation-resistant nickel-base superalloy for laser powder bed fusion (LPBF). Its outstanding strength and toughness from cryogenic temperatures up to 2000°F (1093°C) come from solid-solution strengthening by niobium and molybdenum in a nickel-chromium matrix.

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

Why teams buy this powder from Additive Plus

Genuine AVIMETAL IN625 — gas-atomized for high sphericity, low oxygen and consistent flow.
A strong value alternative to premium Western superalloy 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. Custom alloys / cuts via our own in-house atomization.

Standards & equivalents

Made to the Alloy 625 specification: ASTM F3056 · Inconel 625 · UNS N06625 · 2.4856
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; full COA per lot.

Chemical composition

Typical chemistry (wt%) for Alloy 625:

Element	Content	Element	Content
Nickel (Ni)	Balance	Iron (Fe)	≤ 5.00%
Chromium (Cr)	20.00–23.00%	Cobalt (Co)	≤ 1.00%
Molybdenum (Mo)	8.00–10.00%	Manganese / Silicon	≤ 0.50% each
Niobium (Nb)	3.15–4.15%	Titanium / Aluminum	≤ 0.40% each
Carbon (C)	≤ 0.10%	P / S	≤ 0.015% each

Heat treatment & processing

Solid-solution strengthened — strength does not rely on precipitation aging.
Stress relief or solution annealing can be applied to relieve residual stress.
Excellent weldability and low crack susceptibility — highly processable in laser AM.

Key performance benefits

Outstanding strength and toughness from cryogenic to 2000°F (1093°C)
Excellent corrosion and oxidation resistance
Non-magnetic
Excellent weldability and AM processability

Typical applications

Heat shields and furnace hardware
Combustion liners and gas-turbine ducting
Chemical-plant hardware
Marine and seawater components

Material comparison: IN625 vs IN718 vs Hastelloy X

Feature	IN625	IN718	Hastelloy X
Strengthening	Solid solution	Precipitation (aging)	Solid solution
Max service temp	~2000°F	~1300°F	~2200°F
Corrosion / oxidation	Excellent	Very good	Exceptional
Heat treatable	No	Yes (aging)	No
Typical use	Corrosion + heat, marine	High-strength structural	Highest-temp oxidation

Brand	Avimetal
Technology	Metal LPBF
Powder Package	10 kg bottle, 440 kg hopper, 840 kg hopper
PSD (particle size distribution)	15–53 micrometres
Printing Materials	Metal Powders
Material	IN625
Country of origin	China, USA
Production Method	Vacuum Induction Melting Gas Atomization (VIGA)

Frequently bought together

Complete the workflow

What teams add to an order so the first build runs clean — handling, plates, and a sample to qualify before you commit volume.

Composite Tooling

EOS M290 SS316 Build Plate | 50mm Corrosion-Resistant LPBF Platform

SS316 stainless steel build plate for EOS M280/M290 systems. 50mm optimized profile for corrosion-resistant and stable LPBF metal printing. Need a build platform for a different printer model or custom dimensions?
Request a custom quote — we manufacture precision build plates for most metal AM systems.

From $720

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6-8 weeks

Additive Manufacturing Solutions

Delfin Industrial Vacuum Cleaner For 3D Printing & Powder Applications

Ideal for reactive metal powders (Al, Ti, etc.) used in AM or lab.

From $11391

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Depowdering stations

S1 Post-processing system

The smart 2-in-1 solution for automated depowdering, cleaning and surface finishing of polymer and metal 3D-printed parts.

For Cleaning, Surface finishing

From $69920

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Engineering

IN718 Inconel Alloy Powder for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

The workhorse superalloy. Age-hardenable. High-strength. Genuine AVIMETAL IN718 (Inconel® 718) nickel superalloy for LPBF metal 3D printing.

✓ High tensile, fatigue & creep strength to 1300°F (704°C)
✓ Strong value alternative, sold in small workable volumes
✓ Full COA on every lot · fast dispatch from L.A.

For Metal LPBF

From $1150

Get quote

5-10 Business Days

1 / 1

From process engineers running IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

Unedited feedback from customers who reorder IN625 Powder Nickel Alloy 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.

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.

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.

Diego R. Production Lead · Energy

Common questions

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

What is Avimetal IN625 best suited for?

Corrosion-resistant, high-temperature components with complex geometries for aerospace, energy, and industrial applications.

Is this powder production-ready?

Yes, Avimetal IN625 is LPBF-optimized with repeatable, production-ready processing parameters.

Can printed parts be heat treated?

Absolutely. Heat treatments are fully supported to achieve target mechanical performance.

Which post-processing methods are compatible?

Machining, polishing, and heat treatment for final part optimization.

What quantity do you sell — can I order a small amount?

Yes. We stock this AVIMETAL alloy and sell it in accessible quantities — a 10 kg bottle as standard, with larger production volumes available. Most mills require large minimums and hide pricing behind an account; we keep it simple with a clear, published price and small-lot availability. Need a different volume? Just ask.

Do you provide a Certificate of Analysis (COA)?

Every lot ships with a full COA — particle size distribution, chemistry, apparent density and flow rate — plus a traceable lot number, so you can qualify once and reorder the same material with confidence.

Place your order, or talk to an engineer first

Order IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs direct, or talk to materials engineer

Add to cart

IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

What your process engineer actually checks

Locked, traceable lot chemistry

Qualified parameters, not just powder

A materials engineer on the line

Why teams buy this powder from Additive Plus

Standards & equivalents

Chemical composition

Heat treatment & processing

Key performance benefits

Typical applications

Material comparison: IN625 vs IN718 vs Hastelloy X

We atomize our own. Custom variants on request.

Complete the workflow

Other products teams run alongside IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

From process engineers running IN625 Powder Nickel Alloy for Metal 3D Printing | LPBF Compatible - 10 kg / 22 lbs

Common questions

Place your order, or talk to an engineer first

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