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Standard Product INDEX
| Wear Plate CWX Standard / 10mm thickness type |
CWX |
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| Wear Plate CWA Standard / 10mm thickness type |
CWA |
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| Wear Plate / CTP Standard |
CTP |
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| Wear Plate / CWP Standard |
CWP |
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| Wear Plate CWT Standard / 5mm thickness type |
CWT |
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| Plate / CWI Standard Plate for Additional Machining |
CWI |
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Some Reasons to Switch to OILES 2000 |
1. Graphite plug plates operate at higher temperatures so they require larger running clearances.
The minimum running clearance needed for OILES2000 is two times smaller, so close tolerance stamping work can be performed with self-lubricated plates. |
| 2. OILES2000 resists wear, so guiding accuracy is maintained throughout the production run. |
3. Due to the rapid wear rate of graphite plug plates many stampers replace plates at each die regrind.
This is a needless expense that OILES2000 eliminates. |
4. According to our tests, bronze plates operate well so long as they are lubricated every shift.
OILES2000 plates do not require that nagging maintenance chore.
Regular lubrication no longer needs to be policed on your stamping line. |
5. At high operating temperatures graphite plugs become dislodged as the bonding glue melts.
OILES2000 does not contain any glue and are entirely suitable for hot stamping or high temperature mold applications. |
6. OILES2000 plates are interchangeable with your current NAAMS and VDI standards, so you can easily test our assertions for yourself and install OILES2000 wear plates during your tool s next scheduled maintenance. |
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 OILES2000 CWX
 OILES2000 CWP |
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Excellent Wear Resistance in high load applications.
A composite multi-layered self-lubricating sliding material composed of
a sintered layer in which solid lubricants and oil are finely and uniformly
dispersed over a steel back layer.
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| Service Range |
| Lub state |
Initial lub |
Continuous lub |
Service temperature range
 |
-40~+120 |
P max.
N/mm²
{ kgf/cm²} |
20.0(73.5)
{ 204(750)} |
40.0(73.5)
{ 408(750)} |
V max.
m/s
{ m/min} |
0.50
{ 30} |
1.00{ 60} |
PV max.
N/mm²·m/s
{ kgf/cm²·m/min} |
1.63
{ 1000} |
2.45
{ 1500} |
| Values in ( ) are of static allowable pressure. |
Indicates static allowable pressure either without sliding or when sliding with extremely low velocity less than 0.0017m/s {0.1m/min}. |
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| Mechanical Property |
| Density |
------- |
g/cm³ |
6.3 |
| Tensile strength |
JIS Z 2241 |
N/mm²
{ kgf/cm²} |
400
{ 41} |
| Hardness |
JIS Z 2243 |
------- |
HRM60~95 |
* Values above are of sintered parts.
* Values above are nominal values, not standard values. |
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| Test data |
| Plane reciprocating motion test |
| <Test conditi> |
| Velocity: |
0.12m/s {7m/min} |
| Stroke: |
80mm |
| Openrating Mode: |
Intermittent Mode 2sec/cycle |
| of Cycles: |
500,000 |
| Lubrication: |
Initial greasing only |
 : |
Max Allowable Pressure |
|
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| Micrograph |
 |
It is a dual layer material consisting of a steel back metal and a liquid phase of a mixture of pulverized alloy of Cu, Sn, Ni, Fe, and C sintered as a lubricating layer on the steel back. The sintered matal consists of a hard structure (A), soft structure (B), and solid graphite lubricant (C). The porous space is filled up with lubricating oil. This patented material has no equals in wear resistance, load durablity, and resistance to foreign matter. |
 |
Products using High tension brass HBsC4 as base metal and having graphite
type solid lubricant (A) embedded therein show good load durability and wear
resistance. But when compared with OILES2000, wear resistance is rather poor. |
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| Die & Mold Top | OILES Bearing TOP |
2000
