Dixon
4HTF4-FS - HT-Series Correct Connect® Flushface Flange Sleeve Female Threaded Coupler
- SKU:
- 4HTF4-FS
- Availability:
- Usually Ships Within 24 Hours
- Weight:
- 1.10 LBS
*Images are for visual reference only.
Description
Details
Applications
Used in equipment for oilfield, industrial hydraulic, and construction
Available Options
- Contact Dixon for all available option adders
- Standard seal options include: FKM, EPDM, FDA FKM, Mil-Nitrile, Fuel Nitrile and Silicone
- Kalrez® seal options include: 4079, 6375 and 7075
- Oxy-clean treatment is available
Compatibility & Interchange Data
- Interchangeable to ISO16028
- Conforms to ISO16028 interchange standard interchangeable with Eaton/Hansen FF, Parker FEM, Snap-tite 74, Faster FFH/2FFN/2FFI, Stucchi A/FIRG and Holmbury HQ/A/FIMC
Construction
- Machined components are manufactured using solid bar stock
- Stainless steel balls, retaining rings and springs maximize corrosion resistance and extend service life.
- Steel componentry is plated using ROHS compliant zinc nickel for corrosion resistance.
- Steel coupler sleeves are hardened to resist deformation and maximize service life.
- Couplers have polyurethane valve stem O-Ring, with a temperature range of -65° to +212°F
- Ancillary coupler seals are Nitrile (Nitrile Rubber), with a temperature range of -40°F to +250°F
- PTFE or TPC-ET Anti-Extrusion ring protects main coupling valve seal from dynamic impulse pressure damage.
Features
- High flow performance, compact profile
- Easily rebuildable
- DORS (dual opposing retention spheres) retention system prevents valve stem ejection during surge flow and pressure spike conditions.
Specifications
- Rated pressure for connected Steel Coupler and Steel Plug: 5,000 PSI (345 bar) Maximum Working and 20,000 PSI (1,379 bar) burst
- Rated pressure for uncoupled Steel Coupler: 5,000 PSI (345 bar) Maximum Working and 20,000 PSI (1,379 bar) burst
WARNING: This product contains lead, a chemical known to the State of California to cause cancer and birth defects or other reproductive harm.