Crusher lining cushioning technologies are designed to provide protection to the crusher’s internal components, such as the mainframe, countershaft, and bearings, by absorbing the shock and impact from the material being processed. There are various technologies available that can be used to cushion crusher linings, including:
Rubber lining: Rubber is a common material used in crusher linings due to its ability to absorb shock and reduce noise levels. Rubber linings are typically applied to the interior surfaces of the crusher using adhesives or mechanical fasteners.
Polyurethane lining: Polyurethane is another popular material used in crusher linings. It is a durable and resilient material that can provide excellent cushioning and impact resistance. Polyurethane linings are typically applied using a spray or cast-in-place process.
Ceramic lining: Ceramic linings are designed to provide excellent wear resistance and impact protection. They are typically used in high-wear areas of the crusher, such as the discharge chute and hopper. Ceramic linings can be applied using adhesives or mechanical fasteners.
Composite lining: Composite linings are made up of multiple layers of different materials, such as rubber, polyurethane, and ceramics. They are designed to provide a combination of impact resistance, wear resistance, and noise reduction. Composite linings are typically applied using adhesives or mechanical fasteners.
Steel backing: Steel backing is a type of cushioning technology that involves applying a layer of steel to the interior surfaces of the crusher. The steel backing provides a rigid support structure for the crusher lining, which can help to reduce the risk of damage from shock and impact.
Overall, the choice of crusher lining cushioning technology will depend on a variety of factors, including the type of material being processed, the size and capacity of the crusher, and the desired level of protection and durability.