1. Failure under high current: Contact oxidation, arc erosion, and welding cause switching failures and outages
2. Energy loss and overheating: High contact resistance generates heat, wastes energy, and accelerates aging
3. Limited electrical life: Frequent maintenance and higher long-term cost of ownership
4. High-density constraints: Compact spaces demand more robust, durable contact materials
These challenges require more stable, high-performance, and long-lasting electrical contact materials. Fudar Alloy provides this through
contact assemblies for automatic transfer switches in data centers, ensuring reliability and efficiency.
1. Specialized alloys & composite coating create corrosion-resistant, weld-resistant contact interfaces that enable seamless switching under high current conditions.
2. High-conductivity composite materials and optimized contact design deliver low, stable contact resistance, reducing energy loss and suppressing overheating.
3. Enhanced arc-erosion resistance extends electrical service life, lengthens maintenance-free intervals, and lowers the total cost of ownership.
4. Compact, thermally optimized designs support high currents in high-density environments while maintaining low temperature rise and stable performance.
With responsive technical support and comprehensive solutions, we deliver tailored contact assemblies that align with your devices. If you’re looking to enhance your next data center project, we invite you to learn more and
contact us.
