The Radial Stainless Steel Glycerin Filled Pressure Gauge is engineered for high-pressure hydraulic applications where stable and reliable pressure indication is required. Featuring a 63mm dial, G1/4 process connection, stainless steel case, and glycerin-filled construction, this gauge is designed to perform in environments exposed to vibration, pulsation, and mechanical shock.
| Parameter | Specification |
|---|---|
| Product Type | Glycerin Filled Pressure Gauge |
| Pressure Range | 0-1000 Bar |
| Pressure Scale | 0-14000 PSI |
| Mounting Type | Radial Mount |
| Connection Thread | G1/4 |
| Dial Size | 63 mm |
| Case Material | Stainless Steel |
| Connection Material | Brass |
| Fill Liquid | Glycerin |
| Measuring Element | Bourdon Tube |
Designed for demanding hydraulic applications requiring measurement up to 1000 bar (100 MPa), making it suitable for industrial high-pressure systems and hydraulic testing equipment.
The glycerin-filled chamber minimizes pointer flutter caused by pressure pulsation and mechanical vibration, helping operators obtain more stable readings.
The 63mm diameter provides clear readability while allowing installation in equipment with limited mounting space.
Compatible with many hydraulic systems, test equipment, pressure manifolds, and industrial fluid circuits.
The pressure gauge operates using a Bourdon tube sensing element. When process pressure enters through the G1/4 connection, the Bourdon tube deforms proportionally to the applied pressure.
This movement is transmitted through a precision mechanical linkage that rotates the pointer across the calibrated dial scale. The displayed position indicates the corresponding pressure value.
Glycerin dampens vibration and pressure pulsation, helping stabilize readings and protect internal components.
Yes. It is specifically designed for hydraulic pressure monitoring, test equipment, and industrial fluid power applications.
1000 bar is approximately equal to 14,000 PSI.
A 63mm dial provides a balance between compact installation and clear visual readability.