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Brand Name: | bronzelube.com |
Model Number: | Straight Bushing:Bronze with Embedded Solid Lubricant Material,Lead Free |
MOQ: | Bronze Precision Wear Plates & Lubricating Parts made to order |
Price: | US$0.11 - US$21.11 / Pieces,NEGOTIABLE |
Payment Terms: | TT IN ADVANCE,L/C,Western Union |
Supply Ability: | Self Lube Bearing Manufacturing Dimensions Tolerance Assembly |
Oilless Self-Lube Wear Plates, specifically the Graphite-plugged Bronze Wear Plates C954 with Graphite Plugs, are designed to offer exceptional wear resistance and smooth operation without the need for regular lubrication. The combination of bronze and graphite materials creates a highly durable and low-friction surface, ensuring long-term performance and reduced maintenance.
The standard size of these wear plates allows for easy integration into a wide range of industrial applications, including machinery, equipment, and vehicles. Wh used in conveyor systems, pumps, motors, or other high-wear components, the Oilless Self-Lube Wear Plates provide reliable and cost-effective solutions.
The Graphite plugs, a key feature of these wear plates, act as lubrication reservoirs, releasing graphite lubricant as needed to maintain a smooth operating surface. This self-lubricating design reduces friction, heat generation, and wear, extending the service life of equipment and reducing operational downtime.
Overall, the Oilless Self-Lube Wear Plates C954 with Graphite Plugs offer a robust and efficient solution for reducing wear and maintaining smooth operation in various industrial settings.
Composition and properties | ||||||||||||||||
dg | DIN | Material No. delivery form1) |
Designation | ASTM standard | Proportional weights | Physical properties (min.) | ||||||||||
Standard | Alloy No. |
DIN | ASTM | Density | 0.2% Strain |
Tensile strength |
Strain | Emodulus | Hardness | Application | ||||||
Symbol | ρ | δy | δT | |||||||||||||
Unit | % | % | g/cm³ | MPa | MPa | % | MPa | HB | ||||||||
01 | 1705 | 2.1090.01 | CuSn7ZnPb | B 584 | C932 00 | Cu 81 - 85 Sn 6 - 8 Zn 3 - 5 Pb 5 - 7 permissible max. portions Ni 2.0 Sb 0.3 |
Cu 81 - 85 Sn 6.3 - 7.5 Zn 2 - 4 Pb 6 - 8 Ni 1 Sb 0.35 |
8.8 | 120 | 240 | 15 | 106.000 | 65 | Standard material for the most applications international standardized |
||
2.1090.03 | CuSn7ZnPb | B 271 | C932 00 | 8.8 | 130 | 270 | 13 | 106.000 | 75 | |||||||
2.1090.04 | CuSn7ZnPb | B 505 | C932 00 | 8.8 | 120 | 270 | 16 | 106.000 | 70 | |||||||
02 | 1705 | 2.1061.01 | CuSn12Pb | not yet standardized | Cu 84 - 87 Sn 11 - 13 Pb 1 - 2 permissible Ni 0.8 - 1.5 max. portions Ni 2.0 Sb 0.2 P 0.2 |
Cu 85 - 88 Sn 10 - 12 Pb 1 - 1.5 |
8.7 | 140 | 260 | 10 | 112.000 | 80 | Material for high loads and/or corrosion stress attack international only partially standardized |
|||
2.1061.03 | CuSn12Pb | not yet standardized | 8.7 | 150 | 280 | 5 | 112.000 | 90 | ||||||||
2.1061.04 | CuSn12Pb | B 505 | C925 00 | 8.7 | 140 | 280 | 7 | 112.000 | 85 | |||||||
03 | 1714 | 2.0975.01 | CuAl10Ni | B 584 | C955 00 | C u min. 75 Al 8.5 - 11.0 Ni 4.0 - 6.5 Fe 3.5 - 5.5 permissible max. portions Mn 3.3 |
Cu min. 78 Al 10 - 11.5 Ni 3 - 5.5 Fe 3 - 5 Mn max. 3.5 |
7.6 | 270 | 600 | 12 | 122.000 | 140 | Material for extreme loads and/or high corrosive environments international standardized |
||
2.0975.02 | CuAl10Ni | B 30 | C955 00 | 7.6 | 300 | 600 | 14 | 122.000 | 150 | |||||||
2.0975.03 | CuAl10Ni | B 271 | C955 00 | 7.6 | 300 | 700 | 13 | 122.000 | 160 | |||||||
2.0975.04 | CuAl10Ni | B 505 | C955 00 | 7.6 | 300 | 700 | 13 | 122.000 | 160 | |||||||
04 | 1709 | 2.0598.01 | CuZn25Al5 | B584 | C863 00 | Cu 60 - 67 Al 3 - 7 Fe 1.5 - 4 Mn 2.5 - 5 Zn rest permissible max. portions Ni max. 3 |
Cu 60 - 66 Al 5 - 7.5 Fe 2 - 4 Mn 2.5 - 5 Zn 22 - 28 Ni max. 1 |
8.2 | 450 | 750 | 8 | 115.000 | 180 | Material for highest loads without corrosive attack. international partially standardized to a large extend |
||
2.0598.02 | CuZn25Al5 | B 30 | C863 00 | 8.2 | 480 | 750 | 8 | 115.000 | 180 | |||||||
2.0598.03 | CuZn25Al5 | B 271 | C863 00 | 8.2 | 480 | 750 | 5 | 115.000 | 190 | |||||||
05 | 1705 | 2.1052.01 | CuSn12 | not yet standardized | Cu 84 - 88 Sn 11 - 13 Pb 1 Ni 2.0 Sb 0.2 P 0.2 |
Cu 85 - 88 Sn 10 - 12 Pb 1 - 1.5 Ni 0.8 - 1.5 |
8.6 | 140 | 260 | 12 | 110.000 | 80 | Material with good wear resis- tance. corrosion and seawater resistant international partially standardized |
|||
2.1052.03 | CuSn12 | not yet standardized | 8.6 | 150 | 280 | 8 | 110.000 | 90 | ||||||||
2.1052.04 | CuSn12 | not yet standardized | 8.7 | 140 | 280 | 8 | 110.000 | 95 | ||||||||
1 ) delivery form: .01 = sand casting. .02 = gravity casting. .03 = centrifugal casting. .04 = continuous casting |
Material |
Base Bronze |
500SP: CuZn25Al6Fe3Mn3 |
|
Solid Graphite lubricant |
|
Density |
|
8.2g/cm3 |
Tensile Strength |
|
>=755N/mm2 |
Anti-compact Tenacity |
|
>=400~500KJ/m3 |
Hardness |
|
>=200HB |
Max Load Pressure |
|
100N/mm2 / 120N/mm2(500SP120) |
Speed Limit |
|
0.5m/s |
PV value limit |
|
1.65N/mm2.m/s |
Friction coef |
Oil Lubrication |
0.03 |
Dry Friction |
0.16 |
|
Working temperature |
|
-50~+300°C |
Grade |
50# |
50S1 |
50S2 |
50S3 |
650S5 |
Material |
CuZn25AI5Mn4Fe3 |
CuSn5Pb5Zn5 |
CuAI10Ni5Fe5 |
CuSn12 |
CuZn25AI5Mn4Fe3 |
Density |
8 |
8.9 |
7.8 |
8.9 |
8 |
Hardness |
≥210 |
≥70 |
≥150 |
≥75 |
≥235 |
Tensile strength |
≥750 |
≥250 |
≥500 |
≥270 |
≥800 |
Yield strength |
≥450 |
≥90 |
≥260 |
≥150 |
≥450 |
Elongation |
≥12 |
≥13 |
≥10 |
≥5 |
≥8 |
Coefficient o linear expansion |
1.9×10-5/℃ |
1.8×10-5/℃ |
1.6×10-5/℃ |
1.8×10-5/℃ |
1.9×10-5/℃ |
Max.Temp. |
-40~+300℃ |
-40~+400℃ |
-40~+400℃ |
-40~+400℃ |
-40~+300℃ |
Max.dynamic load |
100 |
60 |
50 |
70 |
120 |
Max.speed(Dry) |
15 |
10 |
20 |
10 |
15 |
N/mm²*m/s(Lubrication) |
200 |
60 |
60 |
80 |
200 |
Compression deformation |
< 0.01 mm |
< 0.05mm |
< 0.04mm |
< 0.05mm |
< 0.005mm |
Product NO. |
Chemical Compositions |
||||||||
VSB-50P |
Cu |
Zn |
Al |
Fe |
Mn |
Si |
Ni |
Sn |
Pb |
60~66 |
22~28 |
5.0~8.0 |
2.0~4.0 |
2.5~5.0 |
<0.1 |
<0.5 |
<0.2 |
<0.2 |