SAE660
SAE660 / CC493K offers very good machining properties and reasonable strength and hardness levels. The tin and the lead content in the material also enhances the alloys wear resistance and gives excellent anti-friction qualities.
SAE660 / CC493K is not subject to dezincification and offers a reasonable corrosion resistance in seawater and brine. This makes it suitable for pump and valve components bearings and bushings having medium loads and speeds with adequate lubrications.
Related Standards
SAE660 |
CC493K |
C93200 |
CuSn7Zn4Pb7 |
2.1090 (RG7) |
|
Chemical Composition (nominal)
Copper |
83.0% |
Tin |
7.0% |
Lead |
7.0% |
Zinc |
3.0% |
Mechanical Properties (Minima all sizes Continuous Cast)
UTS |
205 N/mm2 |
0.2% Proof Strength |
100 N/mm2 |
Elongation |
15% |
Hardness |
70 HB |
Key Features
- High wear resistance
- Excellent Machinability
- Good pressure tightness
Typical Physical Properties
Melting Point |
977°C |
Density |
8.93 g/cm³ |
Thermal conductivity (RT) |
58 W/m°K |
Thermal expansion coefficient (20-200°C) |
18 x 10-6 / ?C |
Electrical conductivity |
12% IACS |
Modulus of Elasticity |
100 GPa |
Fabrication Properties
Hot Formability |
Not Recommended |
Cold Formability |
Not Recommended |
Machinability rating |
70% |
Stress Relieving Temp. Range |
260°C (1hr per inch thickness) |
Maximum operating temperature |
230°C |
Joining Methods
Soldering |
Excellent |
Brazing |
Good |
Oxy-acetylene welding |
Not recommended |
Gas-shielded arc welding |
Not recommended |
Typical Uses
SAE660 has traditionally been used as general utility bearings, bushings and wear plates and other engineering components requiring good wear resistance and machinability.
This technical information is given by John Hood & Co.without charge and the user shall employ such information at their own discretion and risk. For more detailed technical advice on temper selection, fabrication, joining, machining, physical and mechanical data please contact us as space does not permit the listing of every feature of the material.