Dunham Rubber & Belting Corporation
682 Commerce Parkway West Dr.
Greenwood, IN 46143
Toll-free: 800.876.5340
Tel: 317.888.3002
Fax: 317.888.2335
Email: mail@dunhamrubber.comWebsite: www.dunhamrubber.com
All Categories > Hydraulic Hose & Fittings > Hydraulic QD Couplings > Aeroquip Hydraulic Quick Disconnect Couplings > Fluid Transfer and Hydraulic Couplings > FD96 Series High Pressure Thread Together Flush Face Couplings > Item # FD96-1001-16-20  


Item # FD96-1001-16-20, FD96 Series High Pressure Thread Together Flush Face Couplings
List Price QUOTE

The FD96 High Pressure Thread Together Flush Face Series is designed for high pressure and high impulse applications for hydraulic circuits. The FD96 design provides low connect and disconnect force in hydraulic circuits where trapped residual pressure must be addressed. The flush face design limits contamination and unwanted fluid loss. The FD96 Series is available in sizes 1/4" through 2" to best meet your specific size requirements.

Product Features
  • Thread together design allows connection and disconnection under pressure up to 4,300 psi
  • Low connection force
  • Dual flush-face valving with non-spill design
  • Working pressures up to 8,500 psi
  • Body material - High resistance carbon steel with zinc trivalent chromate plating and black oxide plating





Physical Characteristics  · Specifications  · Applications

Physical Characteristics

Size
20

Max. Operating Pressure (Connected)
470 bar
6800 psi

Max. Operating Pressure
300 bar
4350 psi

Min. Burst Pressure (Connected)
1200 bar
17400 psi

Min. Burst Pressure
800 bar
11600 psi

Rated Flow
189 L/min
50.1 gpm

Fluid Loss
0.060 cc

Req. Torque to Connect
92-107 lbs
125-145 N


Specifications

Coupling Type
Female

Body Size
1-1/4 in

Port Size
1 in

Thread
1 - 11-1/2

Type
Female NPT

Dimension A
105.8 mm
4.17 in

Dimension B
69.8 mm
2.75 in

Hex
55 mm
2.17 in

Cap and Plug
FD96-1009-20, Plugs & Caps for FD96 Series Flush Face PTC Couplings (QUOTE)


Applications
  • Hydraulic fluid transfer
  • High impulse hydraulics
  • Oil field