Nickel Cobalt Alloy Lump/ Particles (Ni50/Co50) Description
Nickel Cobalt Alloy (Ni50/Co50)
features a face-centered cubic (FCC) structure, ensuring excellent ductility
(>30% elongation) and high-temperature stability (melting point ~1455°C).
The equiatomic composition balances nickel’s oxidation resistance with cobalt’s
strength retention at elevated temperatures. Particles exhibit high sphericity
(>90%), low oxygen content (<500 ppm), and uniform size distribution (15-150
μm), ideal for laser powder bed fusion (LPBF) or sintering. Lumps are
vacuum-arc remelted to minimize impurities (C <0.02%, S <0.005%),
ensuring consistency in critical applications like turbine blades and Li-ion
battery cathodes. Magnetic properties (saturation magnetization ~1.6 T) suit
electromagnetic shielding and permanent magnets.
Nickel Cobalt Alloy Lump/ Particles (Ni50/Co50) Applications
·
Aerospace: Turbine blades, combustor liners.
·
Energy: Li-ion battery cathodes, solid-state
electrolytes.
·
Electronics: Magnetic shielding, sensor
components.
·
Catalysis: Substrates for hydrogen evolution
reactions.
Nickel Cobalt Alloy Lump/ Particles (Ni50/Co50) Packaging
Our products are packaged in customized cartons of various
sizes based on the material dimensions. Small items are securely packed in PP
boxes, while larger items are placed in custom wooden crates. We ensure strict
adherence to packaging customization and the use of appropriate cushioning
materials to provide optimal protection during transportation.
Packaging: Carton, Wooden Box, or Customized.
Kindly review the packaging
details provided for your reference.
Manufacturing Process
1. Testing Method
(1) Chemical Composition Analysis - Verified using techniques
such as GDMS or XRF to ensure compliance with purity requirements.
(2) Mechanical Properties Testing - Includes tensile strength,
yield strength, and elongation tests to assess material performance.
(3) Dimensional Inspection - Measures thickness, width, and
length to ensure adherence to specified tolerances.
(4) Surface Quality Inspection - Checks for defects such as
scratches, cracks, or inclusions through visual and ultrasonic examination.
(5) Hardness Testing - Determines material hardness to confirm
uniformity and mechanical reliability.
Please refer to the SAM testing procedures for detailed information.
Nickel Cobalt Alloy Lump/ Particles (Ni50/Co50) FAQs
Q1. Why choose a 50:50 Ni/Co ratio?
Balances nickel’s corrosion resistance with cobalt’s high-temperature
creep resistance, ideal for thermal cycling environments.
Q2. Can these particles be used in binder jetting?
Yes, but optimal performance requires 15-45 μm particles
with flowability <25 s/50g.
Q3. How does Ni50/Co50 compare to Inconel 718?
Higher Co content improves thermal stability (>1000°C
service) but reduces room-temperature tensile strength (650 MPa vs. 1276 MPa).
Performance Comparison Table with Competitive Products
Alloy Properties Comparison
|
Property
|
Ni50/Co50
|
Inconel 718
|
Hastelloy X
|
|
Melting Point (°C)
|
1455
|
1350
|
1350
|
|
Tensile Strength (MPa)
|
650 (RT)
|
1276 (RT)
|
760 (RT)
|
|
Max Service Temp (°C)
|
1000
|
700
|
1200
|
|
Electrical Conductivity (S/m)
|
9.3×10⁶
|
1.0×10⁶
|
1.2×10⁶
|
Related Information
1. Common Preparation Methods
Lumps: Vacuum induction melting
(VIM) followed by vacuum-arc remelting (VAR) to achieve ultra-low impurities.
Particles: Gas atomization under
argon, sieved to 15-150 μm, with post-process annealing to relieve stress.
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