Raised Dimpled Ceramic Pulley Lagging
▪ High friction coefficient
▪ Improving belt centering
▪ Less system downtime
▪ Lifetime extension
▪ Less material build up
▪ Self-cleaning action
WHEN CONVENTIONAL RUBBER LAGGING FAILS TO CORRECT BELT SLIPPAGE AND WEARS PREMATURELY, JIMWAY'S CERAMIC PULLEY LAGGING PROVIDES A COST EFFECTIVE SOLUTION THAT ENSURES OPTIMUM TRACTION OF DRIVE PULLEYS UNDER WET AND SLIPPERY CONDITIONS.
Reduced the conveyor belt's wear and slippage with Jimway's ceramic pulley lagging system, which not only increase uptime, but also dissipate water and residue via dewatering grooves. In addition, it serves as a maintenance free wear resistant cover; meanwhile, it also creates maximum traction, without the associated damage to belts. There are constructed of abrasion resistant square or round ceramic to control slippage and increase conveyor belt traction.
COMPARISON SHEET: RUBBER/CERAMIC PULLEY LAGGING
Rubber Pulley Lagging | Ceramic Pulley Lagging | |||
Rubber pulley lagging protects the belt and the residue is on the inside of the belt withoutdamaging the pulley; however, belt mistracking may happen. |
Ceramic tiles are inserted into rubber pulley lagging to increase the friction and the wear resistance for the pulley's service life extension. |
|||
![]() |
![]() |
|||
The Service Life | Shorter | 3X~5X service life | ||
The Friction | Normal | >2X | ||
Belt Mistracking | Easily happen | Rarely happen |
THE COEFFICIENT OF FRICTION
Humidity of
Material
The
Coefficient of Friction between the Lagging and the Belt
Bare Steel
Groove Rubber
Ceramic
Dry
0.30
0.40~0.50
0.70~0.80
Wet
0.10~0.20
0.20~0.25
0.40~0.80
Mud
0.10
0.18~0.20
0.40~0.50