113
DQC414
877.963.4966 •
dixonvalve.com
ST-Series Hydraulic Couplings
Interchange Data:
Interchangeable with Snap-Tite 71-Series
Materials:
Machined components are manufactured using solid steel
or 316 stainless bar stock.
Stainless steel balls, retaining rings, and springs maximize
corrosion resistance and extend service life.
Steel componentry is plated using ROHS Compliant
Trivalent Chrome.
Steel coupler sleeves are hardened to resist deformation
and maximize service life.
Steel nipples are hardened to provide heavy duty
performance.
Nitrile (Buna-N) seals are standard, providing a temperature
range of -40°F to +250°F (-40°C to +121°C).
All couplers and nipples incorporate PTFE or TPC-ET
anti-extrusion rings to protect the seal components from
dynamic impulse damage.
Seal Co
mpo
nents:
Rated Pressure Chart:
Bo
dy
Size
ST-Series Snap-Tite 71-Series Interchange
Steel Coupler/Plug Coupled
316
Stainless Coupler/Plug Coupled
Maximum Working
Burst
Maximum Working
Burst
PSI
Bar
PSI
Bar
PSI
Bar
PSI
Bar
1/4"
10,000
700
27,300
1,800
5,000
345
28,000
1,900
3/8"
10,000
700
27,300
1,800
5,000
345
28,000
1,900
1/2"
10,000
700
22,500
1,500
5,000
345
25,000
1,700
3/4"
7,500
500
20,200
1,400
5,000
345
22,800
1,550
1"
7,500
500
19,400
1,300
4,000
275
18,500
1,250
1"-
V
2
8,500
585
25,900
1,750
-
-
-
-
2"
5,000
345
16,000
1,100
3,000
200
10,000
700
Technical Specifications:
Bo
dy
Size
Interchange Standards
Functio
nal Parameters
U.S.
Military
U.S.
Government
International
Standards
ANSI/NFPA
Standards
Locking Ball
Quantity
Air
Inclusion
Fluid
Loss
Vacuum
Inch HG
Flow
ΔP = 22 PSI
1/4"
-
-
-
-
10
0.01
cc
0.02
cc
N/R 3.1 GPM
3/8"
-
-
-
-
10
0.02
cc
0.02
cc
N/R 7.7 GPM
1/2"
-
-
-
-
12
0.03
cc
0.03
cc
N/R 15 GPM
3/4"
-
-
-
-
12
0.04
cc
0.06
cc
N/R 30 GPM
1"
-
-
-
-
12
0.06
cc
0.07
cc
N/R 45 GPM
1"-
V
2
-
-
-
-
12
0.09
cc
0.10
cc
N/R 50 GPM
2"
-
-
-
-
15
3.14
cc
5.25
cc
N/R 150 GPM
Note Minimum burst pressure ratings were established under laboratory conditions using a Static Burst Unit (SBU).
For high impulse applications and to meet Det Norske Veritas (DNV) compliance, the burst pressure must be
divided by four (4) to ensure a 4:1 safety factor during system operation.