|
|
 |
Conventional L.L.Carbon
- better wear resistance / longer
life.
  |
| |
1st
possibility: Longer Linkage ?? |
|
Phenomena:
> The Long Linkage construction
of carbon makes the rubber
resistant to wear.
> As the bonding of polymer and
carbon black increases, the
rubber becomes stiffer. |
 |
| |
Phenomena:
The Longer Link construction of carbon
makes the rubber even more resistant
to wear. |
|
Problem:
More bonding
of polymer and carbon black will result
in a higher stiffness of the rubber.
 Less
wet performance
Consequence:
Not possible
to use for extending current L.L.Carbon |
|
Conventional L.L.Carbon
- better wear resistance / longer
life.
|
| |
New
Innovation: Super L.L. Carbon |
|
Phenomena:
> The Long Linkage construction
of carbon makes the rubber
resistant to wear.
> As the bonding of polymer and
carbon black increases, the
rubber becomes stiffer. |
 |
| |
Phenomena:
The Longer Link construction of carbon
makes the rubber even more resistant
to wear. |
|
New
Technology:
Can control polymer bonding to carbon
black & keeps rubber flexibility
Maintains
Wet Performance |
|
|
Better wear
resistance and excellent wet performance |
