Gates Data Center Cooling
Gates Data Center Cooling Hose
Overview:
The Gates Data Center Cooling Hose is purpose-built to deliver reliable coolant circulation and contamination-free performance in high-density liquid-cooled Data Center environments. Engineered with a peroxide-cured, zinc-free EPDM tube and flame-resistant cover, it ensures superior chemical compatibility, flexibility, and long service life under continuous operation. Its narrow bend radius and compact profile make it ideal for routing through confined rack spaces, coolant distribution units (CDUs), and manifold systems, while maintaining optimal flow and pressure stability.
Key Technical Advantages:
Zinc-Free, Peroxide-Cured EPDM Tube: Eliminates metallic contamination and ensures long-term coolant purity.
Flame-Resistant Cover: Meets UL 94 V-0 and UL 224 VW-1 standards for Data Center safety compliance.
Excellent Flexibility: Simplifies routing through tight mechanical layouts without kinking or performance loss.
Wide Temperature Range: Rated from –40 °C to +100 °C (–40 °F to +212 °F) for reliable service under varied thermal loads.
Coolant Compatibility: Compatible with glycol-water, deionized, and dielectric coolant formulations.
Ozone and Aging Resistant: Maintains integrity and flexibility in electronically dense, ozone-rich environments.
Multiple Coupling Options: Compatible with push-lock, lock-on, crimp, or sanitary clamp fittings for easy installation.
Data-Center Application Focus:
Specifically designed for liquid-cooled server systems, CDUs, and manifold assemblies, the Gates Data Center Cooling Hose delivers the performance, safety, and cleanliness demanded in mission-critical facilities. Its high flexibility and tight bend radius enable compact routing through racks and cooling modules, while the EPDM construction prevents leaching and fluid degradation over time. Proven through industry testing and used in OCP-compliant environments, the Gates Data Center Cooling Hose helps operators maintain uptime, improve thermal efficiency, and extend system reliability across modern data-center cooling infrastructures.