MatWeb - Material Property Data Advertise with MatWeb!     Register Now
Data sheets for over 180,000 metals, plastics, ceramics, and composites.
MatWeb - Material Property Data HOME  •   SEARCH  •   TOOLS  •   SUPPLIERS  •   FOLDERS  •   ABOUT US  •   FAQ  •   LOG IN    
Recently Viewed Materials (most recent at top)  

Login to see your most recently viewed materials here.

Or if you don't have an account with us yet, then click here to register.

  Searches:   Advanced  | Category  | Property  | Metals  | Trade Name  | Manufacturer  | Recently Viewed Materials
  

Master Bond adhesives

(Viewing data as-entered. Click here to return)
Ampco Metal AMPCO® 863 Manganese Bronze, Continuous Cast
Categories: Metal; Nonferrous Metal; Copper Alloy; Bronze

Material Notes: Ampco 863 has high strength and corrosion resistance. The consistent superiority of Ampco 863 alloy over commercial bronze is due, in large part, to the unique distribution of alloy microstructure, often referred to as the Ampco-Phase. Only Ampco alloys offer this metallurgical advantage.

Applications: Ampco 863 gives high strength and corrosion resistance which makes this alloy ideal for heavy duty construction markets. It will outperform and outlast ordinary bronzes and should be used also for bearings, worm gears, cams, connector rods, lead screw nuts, etc. Superior corrosion resistance and high strength lends this alloy to many construction and agricultural equipment applications. Segmented bushings and sleeve bearings are the main applications of Ampco 863.

Key Words: ASTM B505
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
Specific Gravity 7.83 g/cc
Density 7.83 g/cc
 
Mechanical PropertiesOriginal ValueComments
Hardness, Brinell 2253000 kg
Hardness, Rockwell B 95
Tensile Strength, Ultimate 724 MPa
Tensile Strength, Yield 365 MPa
@Strain 0.5 %
Elongation at Break 18 %
Reduction of Area 15 %
Tensile Modulus 110 GPa
Compressive Yield Strength 193 MPaProportional Limit
 413 MPa0.1% Perm. Set
Compressive Strength 965 MPa
Fatigue Strength 137 MPa
@# of Cycles 1.00e+8
Izod Impact 16.0 J
Charpy Impact 12.0 JKeyhole
 
Electrical PropertiesOriginal ValueComments
Electrical Resistivity 0.0000172 ohm-cm
@Temperature 20.0 °C
10% I.A.C.S.
Magnetic Permeability 1.09
 
Thermal PropertiesOriginal ValueComments
CTE, linear 21.6 µm/m-°C
@Temperature 20.0 - 300 °C
Specific Heat Capacity 0.376 J/g-°C
Thermal Conductivity 41.0 W/m-K
 
Component Elements PropertiesOriginal ValueComments
Aluminum, Al 6.0 %
Copper, Cu 62 %
Iron, Fe 3.0 %
Manganese, Mn 3.0 %
Zinc, Zn 26 %

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.

Users viewing this material also viewed the following:
Manganese Bronze, UNS C86200, Copper Casting Alloy
Manganese Bronze A, UNS C67500
Manganese Bronze, UNS C86300, Copper Casting Alloy
MetalTek C86300 High Tensile Manganese Bronze
Aluminum Bronze, UNS C95400, Copper Casting Alloy, TQ50 Temper

NAMPCO37 / 14991

New MatWeb Services

Please read our License Agreement regarding materials data and our Privacy Policy. Questions or comments about MatWeb? Please contact us at webmaster@matweb.com. We appreciate your input.

The contents of this web site, the MatWeb logo, and "MatWeb" are Copyright 1996-2024 by MatWeb, LLC. MatWeb is intended for personal, non-commercial use. The contents, results, and technical data from this site may not be reproduced either electronically, photographically or substantively without permission from MatWeb, LLC.