DMLS Additive Manufacturing Material

NickelAlloy IN625

Metal Alloy with Excellent Fatigue Properties

NickelAlloy IN625 is the perfect metal 3D printing material for building complex parts for high-temperature and high-strength applications. Using a Direct Metal Laser Sintering (DMLS) process we are able to produce IN625 3D printed parts that exhibit a high degree of heat and corrosion resistance.

Overview

Nickel Alloy IN625 carries high tensile, creep and rupture strength combined with good corrosion resistance in various corrosive environments. Parts built from Nickel Alloy IN625 can be heat treated and material properties can be varied within specified range. Parts can be machined, spark-eroded, welded, micro shot-peened, polished and coated in both as-built and in heat treated conditions.

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Nickel Alloy IN625 Metal 3D Printing

Material Performance

Material Properties Tensile Strength

Tensile Strength

 990±50 MPa (XY)
900±50 MPa (Z)

Yield
Strength

725±50 MPa (XY)
615±50 MPa (Z)

Elongation
at Break

(35±5)% (XY)
(42±5)% (Z)

Material Highlights

Features

  • High strength
  • High temperature & corrosion resistance
  • Can be heat treated, machined and spark-eroded

Uses

  • Applications that require high corrosive resistance
  • Chemical process equipment handling mixed acids both oxidizing & reducing

 

Performance Scale

 

 

Material Colours

metal

Powered By DMLS

Direct Metal Laser Sintering (DMLS) is a laser-based technology of metal 3D printing that uses powdered metals. 3D printing with metal is the ideal alternative to complex designs that machining or casting can’t achieve as it offers the mechanical properties of aerospace standard materials and the design freedom of additive manufacturing. 

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Technical Specifications

Properties As Built Stress Relieved (at 870 °C)
Ultimate Tensile Strength 990±50 MPa (XY)

900±50 MPa (Z)

1040±100 MPa (XY)

930±100 MPa (Z)

Yield Strength (Rp 0.2%) 725±50 MPa (XY)

615±50 MPa (Z)

720±100 MPa (XY)

650±100 (Z)

Elongation at Break (35±5)% (XY)

(42±5)% (Z)

(35±5)% (XY)

(44±5)% (Z)

Modulus of Elasticity 170±20 GPa (XY)

140±20 GPa (Z)

170±20 GPa (XY)

160±20 GPa (Z)

Hardness 30 HRC

Applications