OptiPowder Ni718
PSDs Available:
OptiPowder Ni718
Continuum OptiPowders are produced by our proprietary M2P Gas Atomization System. This advanced plasma-based process transforms reclaimed metal revert streams into high-quality spherical powder in a single step. By utilizing 100% reclaimed feedstock and green energy sources, this process significantly reduces the carbon footprint while delivering exceptional material performance and flowability.
Material Overview
Ni718 is a nickel-chromium-molybdenum-niobium precipitation-hardened superalloy known for excellent machinability in the solution-annealed state and outstanding strength after heat treatment. It offers sustained high-temperature strength, stress rupture resistance, cryogenic stability, and oxidation resistance, making it a workhorse alloy for demanding environments.
OptiPowder Ni718 is engineered for advanced manufacturing applications requiring high-temperature resistance up to approximately 1,200°C (2,200°F). It is widely used in aerospace, power generation, automotive, oil & gas, and emerging energy systems for components such as turbine blades, hot-section hardware, rocket motors, combustion chambers, and other stress-critical parts.
Key Benefits of OptiPowder Ni718
- High-Temperature Strength & Stability: Maintains mechanical integrity under extreme thermal and mechanical loads
- Excellent Oxidation & Corrosion Resistance: Performs reliably in aggressive hot gas and corrosive environments
- Strong Creep & Fatigue Resistance: Supports long service life in stress-critical and cyclic loading applications
- Designed for Additive Manufacturing: Optimized for LPBF and compatible with EBM and binder jetting workflows
- Sustainability Focused: Produced from reclaimed high-value scrap using green energy to reduce environmental impact
Available PSDs & Customization
OptiPowder Ni718 is available in multiple particle size distributions tailored for Laser Powder Bed Fusion (LPBF), with additional PSD options offered for Electron Beam Melting (EBM), Binder Jetting, and other advanced manufacturing processes. Custom cuts and application-specific PSDs are available upon request to match customer platforms and process requirements.
Powder Physical Properties
| Property | Unit | Min | Max |
| Flow (Hall) | s/50g | 10 | 20 |
| Apparent Density (Hall) | g/cc | 4 | – |
| D101 | μm | 15 | 25 |
| D501 | μm | 25 | 35 |
| D901 | μm | 35 | 50 |
| +63 μm2 | wt. % | – | 0 |
| +53 μm2 | wt. % | – | 1 |
| +45 μm2 | wt. % | – | 5 |
1. Per ASTM B822 2. Per ASTM B214 – Data representative of 15–45 μm PSD.
Nominal Composition (wt.%)
| Element | Min | Max | Element | Min | Max |
| Ni | 50.0 | 55.0 | Si | – | 0.35 |
| Cr | 17.0 | 21.0 | Ti | 0.65 | 1.15 |
| Mo | 2.80 | 3.30 | Al | 0.20 | 0.80 |
| Fe | Balance | Balance | C | – | 0.08 |
| Nb+Ta | 4.75 | 5.50 | P | – | 0.015 |
| Co | – | 1.00 | S | – | 0.015 |
| Mn | – | 0.50 | B | – | 0.006 |
Conforms to AMS 7006
Printed Properties (Room Temperature)
| Printed On | Concept Laser | EOS 290 | ASTM F3055 | |
| Direction | OptiPowder Ni718 | OptiPowder Ni718 | ||
| Tensile Strength | XY | 1411 | 1423 | 1240 |
| (MPa) | Z | 1386 | 1356 | 1240 |
| Yield Strength | XY | 1225 | 1218 | 940 |
| (MPa) | Z | 1179 | 1170 | 920 |
| Elongation (%) | XY | 24 | 37 | 12 |
| (MPa) | Z | 23 | 26 | 12 |
Conforms to ASTM F3055-14 – Data representative of 15–45 μm PSD.