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.

IN718 Nickel Alloy Powder for Metal 3D Printing

IN939 Nickel Alloy Powder for Metal 3D Printing | LPBF / EBM Compatible – 10 kg / 22 lbs

$1,123

Extreme Heat Strength. Wear-Resistant. Corrosion-Resistant. LPBF-Optimized. High-temperature nickel alloy powder IN939 for LPBF and EBM additive manufacturing. PowderRange® 939W delivers excellent tensile strength, wear resistance, and oxidation/corrosion resistance for turbine and engine applications.

Technology:
EBM, Metal LPBF
Printing Materials:
Metal Powders
Production Method:
Gas Atomization (GA), Vacuum Induction Melting Gas Atomization (VIGA)
Powder Package:
10 kg bottle, 440 kg hopper, 840 kg hopper

PSD (particle size distribution)

15–45 µm 45–106 µm

In stock
Delivery: 5-10 Business Days

$1,123

Need more than 100 kg / 222 lbs? Or official request?

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

Order more than 100 kg and get a discount

Quantity, kg	Per Bottle 10 kg	Per kg
10-100	$1306.25	$130.63
100+	$1123.38	$112.34

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Description

PowderRange® 939W is a high-temperature nickel alloy developed for additive manufacturing. This alloy is an AM variant of cast alloy IN939, optimized for hot gas path turbine components, such as vanes, blades, and shrouds.

PowderRange® 939W exhibits high tensile strength, wear resistance, and corrosion/oxidation resistance at elevated temperatures. It also provides excellent creep resistance and low-cycle fatigue performance, making it suitable for demanding aerospace, energy, and industrial applications.

The alloy may be further strengthened via precipitation-hardening heat treatments to optimize high-temperature performance. PowderRange® 939W is compatible with LPBF and EBM additive manufacturing processes, delivering reliable mechanical properties and excellent processability for critical components.

Base Elements	Strengthening Elements	Corrosion & Oxidation Elements	Minor & Control Elements
Nickel: Balance	Cobalt: 18.0–20.0%	Chromium: 22.0–23.0%	Manganese: 0.50%
	Titanium: 3.00–4.5%	Tungsten: 1.00–3.00%	Silicon: 0.50%
	Aluminum: 1.00–3.0%	Tantalum: 1.00–1.80%	Zirconium: 0.10%
	Niobium: 0.50–1.5%		Carbon: 0.15%
			Boron: 0.01%

machine type:

F – LPBF

E – EBM

Key Performance Benefits

High-temperature tensile strength and creep resistance
Wear resistance under extreme heat conditions
Oxidation and corrosion resistant at elevated temperatures
Precipitation-hardenable for optimized high-temperature performance
Reliable additive manufacturing processability (LPBF & EBM)

industries

Aerospace / Energy / Industrial

Typical Applications

Gas turbine hot gas path components
Engine blades, vanes, and shrouds
High-temperature industrial components

Brand Carpenter Additive
Technology EBM, Metal LPBF
Powder Package 10 kg bottle, 440 kg hopper, 840 kg hopper
PSD (particle size distribution) 15–45 µm, 45–106 µm
Printing Materials Metal Powders
Material IN939
Country of origin USA
Production Method Gas Atomization (GA), Vacuum Induction Melting Gas Atomization (VIGA)

Materials

IN939

Frequently asked questions

What is PowderRange 939W?

PowderRange® 939W is a high-temperature nickel alloy powder designed for additive manufacturing, derived from cast alloy IN939, optimized for hot gas path turbine and engine components.

Which additive manufacturing processes are compatible with 939W?

PowderRange® 939W is compatible with LPBF and EBM.

Can PowderRange 939W be heat treated?

Yes. It can be precipitation-hardened to further increase high-temperature strength and wear resistance.

What industries commonly use PowderRange 939W?

Aerospace, energy, and industrial sectors, particularly for turbine and engine components exposed to extreme heat.

What types of parts are typically produced with 939W?

Typical applications include gas turbine blades, vanes, shrouds, and other hot gas path components.

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IN939 Nickel Alloy Powder for Metal 3D Printing | LPBF / EBM Compatible – 10 kg / 22 lbs

Description

machine type:

F – LPBF

E – EBM

Key Performance Benefits

industries

Typical Applications

Frequently asked questions

What is PowderRange 939W?

Which additive manufacturing processes are compatible with 939W?

Can PowderRange 939W be heat treated?

What industries commonly use PowderRange 939W?

What types of parts are typically produced with 939W?

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