Introduction
Roll chock is one of the important parts of rolling mill, they directly bears the working rolls or backup rolls load.
The rolling force is transferred to the chock through the bearing, so whether the roll chock structure of the rolling mill is reasonable and whether the accuracy meets the requirements will have an important influence on the service life of bearing and the safe operation of rolling mill.
Advantages
• Precision Engineering: Our roll chocks are manufactured with the highest standards of precision to ensure perfect alignment and optimal performance.
• Durability and Reliability: Our roll chocks are designed to endure the harsh conditions of rolling mills, offering exceptional durability and reliability. Our chocks are built to minimize downtime and extend the service life of your rolling mill components.
• Customization: We understand that every rolling mill has unique requirements. That's why we offer custom - designed chocks tailored to fit your specific operational needs. Whether you need chocks for a new installation or a retrofit, our team can provide a solution that meets your exact specifications.
Parameters
Usage: Roll chocks for bar mill/plate mill/hot strip mill.
Material: Cast steel/Forged steel/Welded parts, i.e G28Mn6/Zg230-450 etc.
Standard: SN-200, SMS Group
Weight: 1-100 tons


Technical Support
Load Distribution:
- Chocks bear the forces exerted by the rolls during the rolling process. They are designed to handle the high pressures and stresses generated, ensuring that these forces are transferred safely to the mill structure
|
Maintenance and Repair:
- Regular inspection and maintenance of chocks are necessary to prevent failures that could lead to significant financial losses. Chocks are carefully disassembled, cleaned, and inspected for damage. Advanced inspection technologies are used to assess critical dimensions, and repairs are planned in the most cost-effective manner possible
|
Material and Manufacturing:
- Original chocks are typically manufactured from cast steel or gray cast iron, with carbon content ranging from 0.2% to 0.3%. Minor welding repairs are possible for cast iron chocks, but major repairs are not feasible due to the extensive welding material required
|
Stress Analysis and Optimization:
- Finite Element Analysis (FEA) is used to analyze the stress distribution within chocks, which helps in optimizing their design for improved service life and load-bearing capacity. Studies have shown that chocks made from certain materials, such as CA6NM, can produce significantly less deformation and equivalent stress compared to those made from gray cast iron
|
Roll Load Calculation:
- The roll load, which is the force applied by the rolls, can be calculated using established theories like the T-selikov theory. This calculation is essential for determining the strength requirements of the chock and ensuring its ability to handle the forces exerted during rolling
|