LB4 / C93500
BS1400:LB4 is a leaded Bronze LB4 containing approximately 9% lead and 5% Tin. These additions create an alloy with excellent machining properties, good wear properties, a medium strength and a good corrosion resistance. It will withstand some weaker acids in contaminated waters.
Suitable for bearings where low to moderate loads are used the LB4 is also ideal for applications with little lubrication or possible miss-alignment for short periods. The LB4 is most suitable for mild steel shafts with low loadings or hard shafts with moderate or low loads and speed.
Related Specifications
BS1400: LB4 |
AS1565 93500 |
ASTM B505 - C93500 |
|
Nominal Composition
Cu Remainder |
Sn 4.0 - 6.0% |
Zn 2.0% max |
Pb 8.0 - 10.0% |
P 0.10% max |
Ni 2.0% max |
Sb 0.5% max |
Fe 0.25% max |
Others 0.5% max |
Mechanical Properties (Continuous Cast)
Ultimate Tensile Strength |
230 N/mm2 |
0.2% Proof Strength |
130 N/mm2 |
Elongation |
9 % |
Key Features
- Excellent machinability
- Good corrosion resistance
- High wear resistance
- Reasonable strength levels
Typical Physical Properties
Density |
8.87 g/cm3 |
Melting Point |
1000?C |
Electrical Conductivity |
15% IACS |
Coefficient of Thermal Expansion 20-300?C |
18 x 10-6 |
Thermal Conductivity |
70 W/m?C |
Fabrication Properties
Stress Relieving temperature |
260?C |
Max operating temperature |
230?C |
Hot working temperature |
Not recommended |
Hot formability |
Not recommended |
Cold Formability |
Not recommended |
Machinability Rating |
70% |
Joining Methods
Soldering |
Good |
Brazing |
Good* |
MIG Welding |
Not recommended |
TIG Welding |
Not recommended |
Resistance Welding |
Not recommended |
* Since brazing is performed at temperatures within the hot short range, strain must be avoided during the brazing and cooling of this alloy.
Typical Uses
The main application areas for the LB4 material are low load and low speed bearings for mild steel shafts.
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