AMS 5221, AMS 5223, AMS 5225
Alloy 902 Wire Description
Alloy 902is a precipitation hardenable nickel-iron with a controllable thermoplastic coefficient which is the alloy’s outstanding characteristic. The alloy can be processed to have a constant modulus of elasticity at temperatures from -50 to 150°F. The addition of titanium to the nickel-iron-chromium alloy makes it hardenable by precipitation.
Precision apparatus where elastic members are subject to temperature fluctuations.
Tuning forks and vibrating reeds
Nickel + Cobalt: 41.00- 43.50
Carbon: 0.06 max
Manganese: 0.80 max
Silicon: 1.00 max
Phosphorus: 0.040 max,
Sulfur: 0.040 max
Density: 0.291 lbs/in³ 8.05 g/cm³
Electrical Resistivity: microhm-cm
At 68°F: 51.0
Mean Coefficient of Thermal Expansion: in/in/°F (mm/m/°C):
70-212°F (20-100°C): 4.2 x 10–6 (7.6)
Specific Heat, (32-212°F),Btu/lb•°F (0-100°C), J/kg•°C:
Thermal Conductivity: BTU-ft/h-ft²-°F BTU/h-ft-°F (W/m-°K)
70°F (21°C) : 9.0 (12.1)
Modulus of Elasticity: KSI (MPa) (Process dependent)
24-29 x 10³(165-200 x 10³)
Melting Range: 2650-2700°F (1450-1480°C)
Mechanical Properties at Room Temperature
Ultimate Tensile Strength: 85 KSI min (586 MPa min)
Yield Strength (0.2% offset): 35 KSI min (241 MPa min)
Elongation: 30% min
Alloy 902 can be cold rolled to achieve the temper properties required by specific customers and/or manufacturing requirements. Contact Ulbrich Wire for details.
Typical Tempered Products:
Ultimate Tensile Strength: 90-110 KSI (621-728 MPa)
Elongation: 15% min
Hardness: Rb 83-98
Ultimate Tensile Strength:
125-140 KSI (862-965 MPa) gauges > 0.020 inches
125-150 KSI (862-1034 MPa) gauges ≤ .020 inches
3% min: gauges > 0.020 inches
1% min gauges ≤ .020 inches
Hardness: Rc 24-32
Typical Heat Treat Capabilities
1300°F – Air cool
Ultimate Tensile Strength: 150 KSI min (1034 MPa min)
Hardness: Rc 27-35.
10% Reduction + 1300°F
Ultimate Tensile Strength: 165 KSI min (1138 MPa min)
Yield Strength (0.2% offset): 120 KSI min (827 MPa min)
Elongation: 10% min
Hardness: Rc 34-41
50% Reduction + 1300°F
Ultimate Tensile Strength: 190 KSI min (1310 MPa min)
Yield Strength (0.2% offset): 165 KSI min (1138 MPa min)
Elongation: 5% min
Hardness: Rc 39-46.
Alloy 902 has fairly good corrosion resistance due to its nickel-chromium content. However the chromium content is too low to put it in the same category of stainless steels, but in corrosion resistance it is superior to the non-stainless alloy steels. Refer to NACE (National Association of Corrosion Engineers) for recommendations
Standard Wire Finishes
Extra Clean: (XC) Extra clean is also referred to as “bright annealed” or “bright annealed and cold rolled”
Grease (round wire only): Drawn in a heavy grease produces an “Ultra bright” finish for decorative applications
Soap (round wire only): Soap is used as a lubricant in the drawing process and is not removed. It acts as a lubricant during customer part forming operation. A soap finish is available in tempered products.
Plated: Many plating options are available.
∗Special finishes are available: Contact Ulbrich Wire Sales with special finish and plating requests.
Cut to lengths
Alloy 902can be hardened by cold rolled and by hardened heat treating
For best results refer to: SSINA’s “Welding of Stainless Steels and Other Joining Methods”
NiSPAN C® 902is a registered trademark of Special Metals Corporation
Limitation of Liability and Disclaimer of Warranty: In no event will Ulbrich Stainless Steels and Special Metals, Inc., be liable for any damages arising from the use of the information included in this document or that it is suitable for the ‘applications’ noted. We believe the information and data provided to be accurate to the best of our knowledge but, all data is considered typical values only. It is intended for reference and general information and not recommended for specification, design or engineering purposes. Ulbrich assumes no implied or express warranty in regard to the creation or accuracy of the data provided in this document.
Copyright January 2014 Ulbrich Stainless Steels & Special Metals, Inc. – Revision 6.1.2015