Product Overview
The DN100 Continuous Casting Vibration Table Rubber Compensator is a specialized, heavy-duty flexible joint engineered to survive the most demanding mechanical stresses in a steel mill. Unlike standard industrial joints, this unit is formulated with high-purity Natural Rubber (NR), which possesses the highest molecular resilience and fatigue life to withstand the rapid, high-amplitude oscillations of a casting vibration table.
Designed to prevent catastrophic piping failure, this rubber compensator acts as a critical dampening barrier, absorbing intense kinetic energy while maintaining a leak-proof seal under PN16 pressure. Its robust construction ensures long-term operational stability in the heat-intensive and high-vibration environment of a modern melt shop.
Key Features
- High-Resilience Natural Rubber (NR): Specifically selected for its superior internal damping and ability to dissipate heat generated by rapid high-frequency deformation.
- Extreme Fatigue Resistance: Engineered to withstand millions of vibration cycles without surface cracking or structural delamination.
- Reinforced Carcass Construction: Multi-layered high-strength synthetic tire cord provides maximum burst protection and dimensional stability during large-amplitude movements.
- Heavy-Duty Carbon Steel Flanges: Precision-drilled flanges provide a secure, rigid connection to the vibrating frame and stationary piping.
- Superior Shock Absorption: Protects auxiliary cooling water and lubrication lines from the intense mechanical tremors of the oscillation system.
Applications
- Continuous Casting Machine (CCM) Vibration Tables: Connecting secondary cooling water lines to the oscillating mold frame.
- High-Frequency Sizing Screens: Flexible links for vibrating equipment in ore processing or sintering plants.
- Heavy-Duty Steel Mill Pumping Stations: Isolating intense mechanical shocks from high-capacity centrifugal pumps.
- Oscillating Conveyor Systems: Providing stress relief in piping systems connected to reciprocating machinery.
