IW/SW Steel Cord Conveyor Belt
Salient features
The IW/SW steel cord conveyor belt stands out with excellent anti-tear properties, ensuring durability and resilience even in challenging operational conditions.
With very good impact-resistant performance, this conveyor belt excels in handling forces and pressures associated with material impact. The robust design ensures that the belt maintains its integrity even in environments where impact resistance is crucial.
Applications
IW/SW steel mesh as carcass make the belt has a great anti-tear porperties , which will effiective prevern being pieced with a good performace in heat resistance, is suitable for ore handing, coal and ore terminals which requiring impact resistant and anti-tear porperties, metallurgical sinter and coke plants need high temperature resistant porperties, bucket wheel machine requiring high flexbility. SW conveyor belt is widely used in metallurgy, chemical , cement, electricity, grain etc.
Product Structure & Performance
The IW/SW steel cord conveyor belt, renowned for its robust structure and high-performance attributes, is engineered to excel in demanding industrial applications. Featuring a core composed of intertwined steel cords, this conveyor belt boasts exceptional anti-tear properties, ensuring resilience and durability under strenuous conditions. Its very good impact-resistant performance further enhances its reliability, making it adept at withstanding the rigors of material handling processes. The IW/SW steel cord conveyor belt’s versatile design includes various cover types, providing flexibility to meet diverse operational requirements. With a focus on longevity, strength, and adaptability, this conveyor belt stands as a reliable choice for industries requiring efficient and durable material transport.
Specifications:
Cover Grades:
In accordance with ISO15236-2016 standard
The values will help to determine the appropriate cover compound for the application or for the materials carries. Reliable assessment of the behaviour of the covers in service for wear and cut resistance cannot be determined from tensile strength, and abrasion values alone.