Now available – expanded size range for TMC3 Cable Glands for industrial and harsh/hazardous applications
Engineered for EXTREME CONDITIONS -60C to 109C
For use with metal-clad cable, TECK corrugated cable, or non-armored tray cables, Crouse-Hinds series TMC3 cable glands provide a means for terminating at junction boxes, control centers, panelboards and enclosures for motor control and electrical distribution equipment.
TMC3 cable glands form a mechanical watertight connection and may be installed in Class I, Division 2 locations, provided there are no arcing and sparking risks in accordance with C22.2 No. 174.
Primary applications Ideal for terminating armored MC or TECK armored cable and non-armored tray cable in:
Harsh, corrosive or heavy industrial areas
Hazardous areas such as, drilling rigs, refineries, petrochemical, grain and mining applications
Standard materials
Body, gland nut and lock nut – copper-free aluminum, nickel-plated brass or 316 stainless steel options
Bushing and gasket – silicone
Spring – copper alloy
Features
Multiple thread size options per sealing range eliminates need for adapters or reducers
Full range of sizes from ½” to 2” NPT available
Standard gasket and locknut ease installation and improve ingress protection (IP66 and NEMA 4X)
Meets same bonding requirements as Myers™ hubs when installed in thin wall enclosures
Extreme temperature range: -60°C to +109°C
Corrosion resistant material options: copper-free aluminum, nickel-plated brass or 316 stainless steel
Cold Shrink™ kits available for extra protection in extreme environments • Eaton blue, anodized industrial grade nut (aluminum version only)
Certification markings oriented for easy inspection when installed in the bottom of enclosures
Links
Learn more about TMC3 Terminator - EATON Website
Crouse-Hinds series TMC3 Armored Gland brochure (eaton.com) - Brochure
IF 1890 - TMC3 Cable Gland (eaton.com) - Installation instructions
Cables and cable glands for hazardous locations (eaton.com) - Cables and Cable Glands for Hazardous Locations - White Paper