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Brand Name: | VIIPLUS |
Model Number: | bronze wear plate |
MOQ: | Negotiable |
Price: | Negotiable |
Payment Terms: | T/T |
Supply Ability: | 7000000 Piece/Pieces One week |
The Brass Self-Lubricating Bronze Wear Plate is a unique and innovative solution designed to provide exceptional wear resistance without the need for oil lubrication. Made from a high-quality brass alloy, this wear plate is engineered to offer smooth and reliable operation, even in the most demanding industrial environments.
The self-lubricating property of this bronze wear plate is achieved through a special treatment that creates a lubricating film on the surface. This film reduces friction and wear, extending the plate's lifespan and reducing the need for frequent maintenance or lubrication.
The Brass Self-Lubricating Bronze Wear Plate can be customized to fit specific application requirements. Wh you need a certain size, thickness, or shape, we can produce a wear plate that meets your exact needs. This flexibility allows you to integrate the wear plate seamlessly into your existing equipment or machinery.
In summary, the Brass Self-Lubricating Bronze Wear Plate offers a reliable and cost-effective solution for reducing wear and extending the lifespan of industrial equipment. Its oil-free design makes it an environmentally friendly choice, and its customizability ensures that it can be tailored to meet the specific needs of any application.
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 |
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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 |
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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 |
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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 |
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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 |
Part A. Product Features
1.This type wear is made according to VDI 3357 .All most all european automobile factory can use them .Such as VW,AUDI,BMW etc.
2.We have three or four type material of them .
3.The alloy bronze with graphite ,the steel with hardness on surface ,the sintered material .
Part B . Product Operation
Part C. Product Application
Types of Wear Plates | ||||
Material | Thickness | Code No. | Feautures | |
Base Metal | Oilless Type | |||
FC250 | Graphite |
20 | SESF | Excellent sliding performance at low load and medium speed. |
20 | SESFT | |||
SS400 | Copper Powder sintering | 20 | SOX | Excellent sliding performance at low / medium load and medium speed.With the sintered layer using copper based powder and graphite, occurrence of seizure is very limited. |
20 | SOXT | |||
S45C | 10 | TWX | ||
10 | TWXT | |||
Copper alloy | Graphite | 20 | SESW | Excellent in load resistance and wearExcellent sliding performance at high load and low speed.resistance. Good performance is shown in reciprocating and frequent starts and stops. |
20 | SESWT | |||
10 | TWP | |||
10 | TWPT | |||
5 | UWP | |||
Steel (S45C) | Graphite | 20 | FRP | Since the surface hardness is HRC40 or more, it is excellent in wear resistance. |
Steel (SKS3) | 20 | TSP | Since the surface hardness is HRC58 or more, it is greatly excellent in wear resistance. |