Tailor-made particle size distributions are available on request. Contact us to discuss your specific requirements.
Austenitic stainless steel
Osprey® 316Ti
Osprey® 316Ti is a titanium-stabilized austenitic chromium-nickel stainless steel alloyed with molybdenum. It has good corrosion resistance, especially at high temperatures.
- UNS
- S31635
- ASTM, AISI
- 316Ti
- EN Name
- X 6 CrNiMoTi 17 12 2
- EN Number
- 1.4571
- BS
- 316S61
Powder designed for
- Additive Manufacturing (AM)
This metal powder is manufactured by Inert Gas Atomization (IGA), producing a powder with a spherical morphology which provides good flow characteristics and high packing density.
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Product description
Osprey® 316Ti is a titanium-stabilized austenitic chromium-nickel stainless steel alloyed with molybdenum. The alloy has good corrosion resistance, especially at high temperatures.
This metal powder is manufactured by Inert Gas Atomization (IGA), producing a powder with a spherical morphology which provides good flow characteristics and high packing density. In addition, the powder has a low oxygen content and low impurity levels, resulting in a metallurgically clean product with enhanced mechanical performance.
Technical data
Page updated Sep 8, 2023 9:00 AM CET (supersedes all previous editions)
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Chemical composition (nominal), %
- Fe
- Bal.
- C
- 0.08
- Cr
- 16.0-18.0
- Ni
- 10.0-14.0
- Mo
- 2.0-3.0
- Si
- 1.0
- Mn
- 2.0
- Other
- Ti 0.7,N 0.25
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Powder characteristics and morphology
Powder for Additive Manufacturing
Osprey® metal powder for Additive Manufacturing is characterized by a spherical morphology and high packing density, which confer good flow properties. For powder bed processes these are essential when applying fresh powder layers to the bed to ensure uniform and consistent part build.
For blown powder processes, such as Direct Energy Deposition (DED), good flow ensures uniform build rates. Tight control of the particle size distribution also helps ensure good flowability. Low oxygen powders result in clean microstructures and low inclusion levels in the finished parts.
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Particle size distribution
Powder for Additive Manufacturing
Osprey® metal powder for Additive Manufacturing is available in a wide range of particle size distributions that are tailored to the individual Additive Manufacturing systems. They can also be tailored to the particular requirements of the end application, both in terms of mechanical performance and surface finish.
Typical particle size distributions for Additive Manufacturing Binder jetting ≤ 16, ≤ 22, ≤ 32, ≤ 38, ≤ 45 Laser - Powder Bed Fusion (L-PBF) 15 to 53 and 10 to 45 Electron beam - Powder Bed Fusion (E-PBF) 45 to 106 Direct Energy Deposition (DED) 53 to 150 -
Testing
All Osprey® metal powders are supplied with a certificate of analysis containing information on the chemical composition and particle size distribution. Information on other powder characteristics is available upon request.
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Packaging
A wide range of packaging options is available, from 5kgs plastic bottles to 250kg metal drums.
5 kg (11 lbs) Plastic bottles
6 kg (13 lbs) Plastic bottles
10 kg (22 lbs) Plastic bottles
20 kg (44 lbs) Metal cans
100 kg (220 lbs) Steel drums
150 kg (330 lbs) Steel drums
250 kg (551 lbs) Steel drums
All packaging materials are suitable for air, sea and road freight.Contact us for more information and to discuss your packaging requirements.
Disclaimer: Data and recommendations are for guidance only, and the suitability of a powder for a specific process or application can be confirmed only when we know the actual conditions. Continuous development may necessitate changes in technical data without notice. This datasheet is only valid for Osprey® powder.
Range of austenitic stainless steel
Osprey® | Standards* | Fe | C | Cr | Ni | Mo | Si | Mn | S | P | Other | O | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1.4882 | UNS S63019 | Bal. | 0.5 | 21 | 4.5 | - | 0.3 | 9.0 | ≤0.05 | ≤0.03 | - | - |
1.4882
|
304L | UNS S30400 / S30403 | Bal. | 0.03 | 18.0-20.0 | 8.0-12.0 | - | 1.0 | 2.0 | 0.03 | 0.045 | - | - |
304L
|
310S | UNS S31008 | Bal. | 0.08 | 24.0-26.0 | 19.0-22.0 | - | 1.5 | 2.0 | 0.03 | 0.045 | - | - |
310S
|
316L | UNS S31600 / S31603 | Bal. | ≤0.03 | 16.0-18.0 | 10.0-14.0 | 2.0-3.0 | ≤1.0 | ≤2.0 | ≤0.03 | ≤0.045 | N ≤0.10 | - |
316L
|
316Ti | UNS S31635 | Bal. | 0.08 | 16.0-18.0 | 10.0-14.0 | 2.0-3.0 | 1.0 | 2.0 | - | - | Ti 0.7,N 0.25 | - | |
904L | UNS N08904 | Bal. | 0.02 | 19.0-23.0 | 23.0-28.0 | 4.0-5.0 | 1.0 | 2.0 | 0.035 | 0.045 | - | - |
904L
|
HK30 | JIS J92403 | Bal. | 0.25-0.35 | 23.0-27.0 | 19.0-22.0 | 0.5 | 0.75-1.75 | 1.5 | - | - | Nb 1.20-1.50 | - |
HK30
|
N-50 | UNS S20910 | Bal. | 0.03-0.05 | 20.5-22.0 | 11.7-13.0 | 2.0-2.5 | 0.2-0.6 | 4.0-5.5 | ≤0.015 | ≤0.040 | Ta ≤0.10, Ti ≤0.02, Sn ≤0.03, W ≤0.15, Cu ≤0.75 | - |
N-50
|
N-60 | UNS S21800 | Bal. | 0.1 | 16.0-18.0 | 8.0-9.0 | - | 3.5-4.5 | 7.0-9.0 | - | - | N 0.08-0.18 | - |
N-60
|
PANACEA | - | Bal. | ≤0.05 | 16.5-17.5 | ≤0.10 | 3.0-3.5 | 0.40-0.80 | 10.5-11.5 | ≤0.04 | ≤0.04 | Co ≤0.05, N 0.15-0.60, Nb ≤0.73 | <0.2 |
PANACEA
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* Information about more standards is available in the datasheet for the respective alloy.