The JIC 37-degree Parker 43 Series 45-Degree Elbow One Piece Fitting is a critical component in hydraulic and fluid transfer systems, designed to facilitate seamless fluid flow and direction changes within the system. This particular fitting belongs to the renowned Parker 43 Series, known for its high quality durability, and precision engineering.
Hydraulic systems are integral in a wide array of industries, ranging from aerospace to manufacturing, where efficient fluid handling is essential for performance. The JIC (Joint Industry Council) 37-degree flare fitting is a standardized hydraulic fitting, providing a reliable connection that ensures leak-free fluid transfer.
The 45-degree elbow configuration of the Parker 43 Series One Piece Fitting is specifically engineered to allow for a smooth transition and change in direction of fluid flow, essential for navigating complex hydraulic setups. The design adheres to the JIC 37-degree flare standard, ensuring compatibility and interchangeability with other JIC fittings.
PARKER NO. |
Thread |
|
13743-4-4 |
7/16"-20UNF |
|
13743-5-4 |
1/2"-20UNF |
|
13743-6-4 |
9/16"-18UNF |
|
13743-6-6 |
9/16"-18UNF |
|
13743-8-6 |
3/4"-16UNF |
|
13743-8-8 |
3/4"-16UNF |
|
13743-10-6 |
7/8"-14UN |
|
13743-10-8 |
7/8"-14UN |
|
13743-10-10 |
7/8"-14UN |
|
13743-12-10 |
1.1/16"-12UN |
|
13743-12-12 |
1.1/16"-12UN |
|
13743-16-12 |
1.5/16"-12UN |
|
13743-16-16 |
1.5/16"-12UN |
|
13743-20-20 |
1.5/8"-12UN |
|
13743-24-24 |
1.7/8"-12UN |
|
13743-32-32 |
2.1/2"-12UN |
In the world of hydraulic systems, the safety, performance, and longevity of equipment are paramount. JIC hose fittings are integral components in these systems, contributing signi...
READ MOREThe Female JIC 37 one piece fitting is a critical component in hydraulic systems, offering significant advantages in handling vibration and pressure fluctuations. In hydraulic syst...
READ MOREThe correct torque setting during the installation of a BSP Male 60° Seat fitting is crucial for ensuring the integrity and performance of the connection in fluid and gas systems. ...
READ MORE