Ceramic lagging is one of the most sought-after kinds of lagging used to make conveyor pulleys. It is usually used in harsh environments, where the materials are abrasive because it is more robust and durable than rubber Lagging.
Ceramic lagging can be fixed to the pulley’s shell by means of an aluminized strip on a sheet made of ceramic. In this case, the rubber backing is then attached to the shell of the pulley. The ceramic tiles can be directly attached to the shell without the requirement of a sheet or strip of rubber.
Common Ceramic Lagging
The most well-known types of ceramic lagging include dimples and smooth-finished ceramic. Both kinds of ceramic lagging will provide an incredible improvement in friction and grip on the belt. They can reduce friction on belts.
Dimple vs Smooth Ceramic Lagging
Drive pulleys are generally followed by dimpled clay since dimpled clay is more prone to grip and friction. This assists in the movement of the conveyor belt. Non-drive pulleys could be in a lag in smooth ceramic, however it’s not so common.
The method of lagging with smooth ceramic is generally applied to pulleys without drive because friction requirements are greatly diminished. However, any unintentional friction can cause additional wear on the belt. Dimpled ceramic lagging on pulleys that do not drive-able has a higher chance of causing wear and scratches on the belt when accidental friction and slippage happen.
General Benefits
Ceramic lagging is stronger and lasts longer because of its strength and lessens wear and tear on the lagging. The coverage of the ceramic layer is able to be altered depending on the application. The coverage of ceramic is also adjustable to enhance or decrease the amount of friction and grip. Make sure you select the best ceramic pulley lagging supplier for maximum benefits.
Kolag Ceramic Lagging
Kolag ceramic pulleys are one of the laggings made from ceramic. It is a rubber-backed alternative that we can get by DYNA Engineering. It is built using ceramic tiles with dimples which are embedded in pieces of rubber.
Dimple Profile for Reducing Belt Slippage
Tiles of ceramic from Kolag Kolag ceramic lagging have been developed using a dimple design in order to decrease the amount of friction between the belts and pulleys that drive them. The lower slippage result from the rough surface of the ceramic , creating at least two times the amount of friction. the rubber Lagging.
Due to the reduction in the slippage of the belt because of the dimple pattern The Kolag Ceramic layer can be appropriate for wet or areas with a lot of mud where slippage could be more difficult.
Additionally, the reduction in the slippage of belts that is caused by dimple ceramic lagging may lead to a more extended conveyor length of life as continual slippage of the belt can cause wear to the belt, regardless of the kind of lagging.
Dimple Profile to Limit Belt Slippage
Ceramic tiles from Kolag Kolag ceramic lagging have been created with a dimple pattern to minimize the amount of friction between the belt and the pulley for drive. The reduction in slippage can be explained by the rough surface of the ceramic, which creates at least two-fold the amount of friction compared to that of the Lagging made from rubber.
Because of the reduced slide of the belt as a result of the dimple pattern The Kolag ceramic coating is suitable for conditions which are muddy, and where slippage could be more of a concern.
In addition, the reduction in slippage on the belt that is caused by dimple ceramic lagging can lead to a more extended conveyor belt life span since constant slippage of the belt can cause wear on the belt, regardless of the kind of the lagging.
Wear Resistant
Kolag ceramic lamination offers the benefits of every ceramic laminations. It offers more resistant to wear. The wear-resistant design of ceramic lagging guarantees that it will last for longer in harsh environments until it’s replaced.
Embossed Rubber Lagging Design
A one of the more unique characteristic features of Kolag ceramic laagging is the “arrow-boss” style that’s embossed on the rubber lagging. This design feature offers the best water shedding benefits and is superior to the traditional rubber laagging. Read more.