![]() |
Brand Name: | bronzelube.com |
Model Number: | Wear Plates - SelfLube Mold and Die Products |
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 |
These oil-free, self-lubricating wear plates with a thickness of 20mm are designed to provide superior wear resistance without the need for external lubrication. Made from graphite-plugged copper, they are ideal for applications where oil or grease lubrication is not feasible or desired. The China-supplied plates are known for their durability, reliability, and cost-effectiveness. The graphite plugs enhance the self-lubricating properties of the copper, allowing for smooth and efficient operation with minimal wear.
Material : #500SP
Oil-Free Slide Plate for universal use in many dry applications such as die/mold, machinery, automation, construction, automobile. Oil-Free is self-lubrication and work without grease.
Standard parts for automation machinery
Oil-Free plain bearing slide plates brass, sintered, and other materials
Shop from bronzegleitlager.com for all your Oil-free Slide Plates Type·2 Bolt Holes / 3 Bolt Holes / 4 Bolt Holes and Guide Components needs from China. We offer free CAD download, short lead times, competitive pricing, and small minimum order.
Guide to oil-free slide plates. bronze lube oil-free components are produced by embedding a special solid lubricant at appropriate locations.
Copper alloy+Special solid lubricant
(High Strength Brass / Copper Alloy + Solid Lubricant)
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 |
Base material | CuSn6Zn6Pb3 | Maximum use temperature ℃ | 350 |
Extreme dynamic load N/mm² | 60 | ||
Coefficient of friction u | <0.15 | Maximum sliding speed m/s | 2 |
Basic hardness HB | 80~100 |
Model / corresponding grade | JDB-1 | JDB-2 | JDB-3 | JDB-4 | JDB-5 | ||
---|---|---|---|---|---|---|---|
JDB-2 | JDB-22 | JDB-23 | |||||
International brand GB1776-87 | ZCuZn25 Al6Fe3Mn3 |
ZCuSn6Zn6Pb3 | ZCuAl10Fe3 | ZCuSu10P1 | Steel+ ZCuSn6Zn6Pb3 | HT250 | GCr15 |
International ISO1338 | GCuZn25 Al6Fe3Mn3 |
GCuSn6Zn6Pb3 | GCuAl10Fe3 | - | Steel+ CuSn6Zn6Pb3 Fe3Ni5 |
- | B1 |
Germany DIN | G-CuZn25 Al5 |
GB-CuSn5Zn5Pb5 | GB-CuAl10Ni | GB-CuSn10 | Steel+ CuSn6Zn6Pb3Ni | - | 100Cr6 |
Japan JIS | HBsC4 | BC6 | AIBC3 | BC3 | BC6 | FC250 | SUJ2 |
United States ASTM/UNS | C86300 | C83600 | C95500 | C90500 | C83600 | Class40 | 52100 |
British standard(BS) | HTB2 | LG2 | AB1 | PB4 | LG2 | - | - |
Material code | JDB (600#) | JDB (600#S1) | JDB (600#S2) | JDB (600#S3) | JDB (600#S4) | JDB (HT250) | JDB (Gcr15) |
---|---|---|---|---|---|---|---|
Chemical composition | CuZn25Al5Mn3Fe3 | CuZn25Al5Mn3Fe3 | CuAl9Fe4Ni4Mn2 | CuSn5Pb5Zn5 | CuSn12 | HT250 | Gcr15 |
Density(g/cm³) | 8.0 | 8.0 | 8.5 | 8.9 | 9.05 | 7.3 | 7.8 |
Hardness (HB) | >210 | >250 | >150 | >70 | >80 | >190 | HRC>58 |
Tensile strength (N/mm²) | >750 | >800 | >800 | >200 | >260 | >250 | >1500 |
Elongation (%) | >12 | >8 | >15 | >10 | >8 | >5 | >15 |
Linear expansion coefficient | 1.9 | 1.9 | 1.9 | 1.8 | 1.8 | 1.0 | 1.1 |
Operating temperature(℃) | -40~+300 | -40~+150 | -40~+400 | -40~+400 | -40~+400 | -40~+400 | -40~+400 |
Maximum dynamic load(N/mm²) | 100 | 120 | 150 | 60 | 70 | 80 | 200 |
Maximum line speed(m/min) | 15 | 15 | 20 | 10 | 10 | 8 | 5 |
Maximum PV value Lubricating (N/mm²*m/min) |
200 | 200 | 60 | 60 | 80 | 40 | 150 |
Permanent compression deformation 300N/mm² |
<0.01 | <0.005 | <0.04 | <0.05 | <0.05 | <0.015 | <0.002 |
Self Lubricating Bronze Wear Plate, bronze slide plates, slide plates, Oil-free slide plates.
Many of the fully machined bronze Oil-free slide plates with copper alloys wear plates that we manufacture are self-lubricating. This is achieved by a process of plugging the bronze plate with plugs of graphite. We offer a full line of plug graphite bearings. More information on our graphite plugged parts can be found here.
custom configurations for special sizes, hole patterns, or graphite patterns.made in china. Cast Bronze Wear Plate Oil-free slide plates with copper alloys
Our Cast Bronze Wear Plate is produced by a method known as continuous casting. The fine grain structure obtained through continuous casting virtually eliminates casting defects associated with static casting methods. This dense structure is free from porosity which in turn prolongs the life of your tooling.
Solid lubricating plate
Metal-based self-lubricating bearing
Dawn provides high-quality self-lubricating products for all industries worldwide
Our cast bronze wear plates Oil-free slide plates with copper alloys can be supplied in the following bronze alloys: