Direct Bond Ceramic Pulley Lagging
Drive Pulley Lagging
- Eliminates belt slip
- Increased running life
- Increased production
- Reduces operating costs
- No need to increase take-up mass to maintain traction in wet conditions
- Reduced belt tension leads to increase belt and pulley life
- Greatly reduced wear and slippage
- Greatly reduced tiles with studs create a gripping surface for maximum traction
- Studs with rounded edges prevent belt cover damage
- Tiles fitted directly to steel surface using Multotec Hi-bond epoxy
- Improves conveyor tracking
- Dissipates water and dirt in grooves
- Can be hosed down for belt cleaning without loosing traction
Co-efficient of Friction Graph for Drive Pulley Lagging
Non- Drive Lagging
- Flat ceramic tiles fitted directly to steel surface
- Work polished ceramic surface reduces friction and therefore wear on both the pulley and conveyor belt
- Prevents conveyor tracking
- Local damage can be repaired without replacement of complete lagging
| Drive | Non-Drive | |
| Adhesive used | Hi-Bond | MM 66. Hi-Bond |
| Installed shear strength | > 25Mpa | > 25Mpa |
| Overall thickness (approx) | 7.0 mm | 7.0 mm |