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Rulon Bearings

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Haynes Hastelloy® Hybrid-BC1® Nickel Alloy Gas Tungsten Arc Welded (GTAW) Plate
Categories: Metal; Nonferrous Metal; Nickel Alloy
Material Notes: HASTELLOY® HYBRID-BC1® alloy possesses much higher resistance to hydrochloric and sulfuric acids than the nickel-chromium-molybdenum (C-type) alloys, and can tolerate the presence of oxidizing species. The alloy also exhibits extremely high resistance to pitting and crevice corrosion.

HYBRID-BC1 alloy is available in the form of plate, sheet, strip, billet, bar, wire, pipe, and tube.

HYBRID-BC1 alloy is suitable for the following applications in the chemical processing, pharmaceutical, agricultural, food, petrochemical, and power industries:

  • Reaction vessels
  • Heat exchangers
  • Valves
  • Pumps
  • Piping
  • Storage tanks

The alloy is suitable for use at temperatures up to approximately 427°C (800°F). HYBRID-BC1 alloy excels in reducing acids and acid mixtures (with or without halides) open to oxygen and other oxidizing residuals/contaminants.

Heat Treatment: Wrought forms of HYBRID-BC1 alloy are furnished in the solution annealed condition, unless otherwise specified. The standard solution annealing treatment consists of heating to 1149°C (2100°F) followed by rapid air-cooling or (preferably) water quenching. Parts which have been hot formed should be solution annealed prior to final fabrication or installation. The minimum hot forming temperature of the alloy is 954°C (1750°F).

Forming: HYBRID-BC1 alloy has excellent forming characteristics, and cold forming is the preferred method of shaping. The alloy can be easily cold worked due to its high ductility; however, the alloy is stronger than the austenitic stainless steels and therefore requires more energy during cold forming.

Tensile properties reported are for transverse GTAW (TIG) welded samples. Other properties are typical of the alloy.

Data provided by the manufacturer, Haynes International, Inc.
Vendors: No vendors are listed for this material. Please click here if you are a supplier and would like information on how to add your listing to this material.
 
Physical PropertiesOriginal ValueComments
Density 8.83 g/cc
 
Mechanical PropertiesOriginal ValueComments
Tensile Strength, Ultimate 685 MPa
@Thickness 12.7 mm,
Temperature 371 °C
 692 MPa
@Thickness 12.7 mm,
Temperature 427 °C
 696 MPa
@Thickness 12.7 mm,
Temperature 316 °C
 716 MPa
@Thickness 12.7 mm,
Temperature 260 °C
 723 MPa
@Thickness 12.7 mm,
Temperature 204 °C
 756 MPa
@Thickness 12.7 mm,
Temperature 149 °C
 789 MPa
@Thickness 12.7 mm,
Temperature 93.0 °C
 841 MPa
@Thickness 12.7 mm,
Temperature 25.0 °C
Tensile Strength, Yield 324 MPa
@Thickness 12.7 mm,
Temperature 371 °C		0.2% Offset
 351 MPa
@Thickness 12.7 mm,
Temperature 316 °C		0.2% Offset
 354 MPa
@Thickness 12.7 mm,
Temperature 260 °C		0.2% Offset
 355 MPa
@Thickness 12.7 mm,
Temperature 427 °C		0.2% Offset
 391 MPa
@Thickness 12.7 mm,
Temperature 204 °C		0.2% Offset
 400 MPa
@Thickness 12.7 mm,
Temperature 149 °C		0.2% Offset
 419 MPa
@Thickness 12.7 mm,
Temperature 93.0 °C		0.2% Offset
 478 MPa
@Thickness 12.7 mm,
Temperature 25.0 °C		0.2% Offset
Elongation at Break 36.2 %
@Thickness 12.7 mm,
Temperature 204 °C
 37 %
@Thickness 12.7 mm,
Temperature 93.0 °C
 39 %
@Thickness 12.7 mm,
Temperature 316 °C
 40.2 %
@Thickness 12.7 mm,
Temperature 260 °C
 40.9 %
@Thickness 12.7 mm,
Temperature 25.0 °C
 41.1 %
@Thickness 12.7 mm,
Temperature 427 °C
 41.3 %
@Thickness 12.7 mm,
Temperature 371 °C
 70.1 %
@Thickness 12.7 mm,
Temperature 149 °C
Modulus of Elasticity 188 GPa
@Temperature 600 °C		Dynamic
 191 GPa
@Temperature 500 °C		Dynamic
 197 GPa
@Temperature 400 °C		Dynamic
 200 GPa
@Temperature 300 °C		Dynamic
 205 GPa
@Temperature 200 °C		Dynamic
 211 GPa
@Temperature 100 °C		Dynamic
 217 GPa
@Temperature 25.0 °C		Dynamic
 
Electrical PropertiesOriginal ValueComments
Electrical Resistivity 0.000126 ohm-cm
@Temperature 25.0 °C
 0.000127 ohm-cm
@Temperature 100 °C
 0.000127 ohm-cm
@Temperature 200 °C
 0.000128 ohm-cm
@Temperature 300 °C
 0.000128 ohm-cm
@Temperature 400 °C
 0.000129 ohm-cm
@Temperature 500 °C
 0.000131 ohm-cm
@Temperature 600 °C
 
Thermal PropertiesOriginal ValueComments
CTE, linear 11.5 µm/m-°C
@Temperature 25.0 - 100 °C
 11.9 µm/m-°C
@Temperature 25.0 - 200 °C
 12.2 µm/m-°C
@Temperature 25.0 - 300 °C
 12.5 µm/m-°C
@Temperature 25.0 - 400 °C
 12.7 µm/m-°C
@Temperature 25.0 - 500 °C
 12.7 µm/m-°C
@Temperature 25.0 - 600 °C
Specific Heat Capacity 0.403 J/g-°C
@Temperature 25.0 °C
 0.416 J/g-°C
@Temperature 100 °C
 0.429 J/g-°C
@Temperature 200 °C
 0.439 J/g-°C
@Temperature 300 °C
 0.449 J/g-°C
@Temperature 400 °C
 0.457 J/g-°C
@Temperature 600 °C
 0.461 J/g-°C
@Temperature 500 °C
Thermal Conductivity 9.30 W/m-K
@Temperature 25.0 °C
 10.5 W/m-K
@Temperature 100 °C
 11.9 W/m-K
@Temperature 200 °C
 13.5 W/m-K
@Temperature 300 °C
 14.9 W/m-K
@Temperature 400 °C
 16.4 W/m-K
@Temperature 500 °C
 17.5 W/m-K
@Temperature 600 °C
Maximum Service Temperature, Air 800 °F
 
Component Elements PropertiesOriginal ValueComments
Aluminum, Al <= 0.50 %
Carbon, C <= 0.010 %
Chromium, Cr 15 %
Iron, Fe <= 1.25 %
Manganese, Mn 0.25 %
Molybdenum, Mo 22 %
Nickel, Ni 60.91 %as balance
Silicon, Si <= 0.080 %
 
Descriptive Properties
Consumable Diameter3.2
Thermal Diffusivity0.0264 cm2/s23°C
 0.0291 cm2/sat 100°C
 0.0319 cm2/sat 200°C
 0.0352 cm2/sat 300°C
 0.0382 cm2/sat 400°C
 0.0412 cm2/sat 500°C
 0.0435 cm2/sat 600°C

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to go back to viewing the property data in MatWeb's normal format.

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