How to Select Ultra-High-Pressure Gauges?

What Are the Common Ultra-High-Pressure Applications Industrial Wide?

Ultra-high-pressure gauges are typically used in industrial applications where pressure needs to be measured at very high levels, up to 60,000 psi (413 MPa). Some common ultra-high-pressure applications include:

Oil and gas exploration and production: Ultra-high-pressure gauges are used to measure the pressure of fluids in oil and gas wells during drilling and production.

Hydraulic systems: Ultra-high-pressure gauges are used to measure the pressure of fluids in high-pressure hydraulic systems, such as those used in heavy machinery, construction equipment, and aircraft.

Waterjet cutting: Ultra-high-pressure gauges are used to measure the pressure of water in waterjet cutting systems, which use a high-pressure stream of water to cut through materials like metal and stone.

Pressure testing: Ultra-high-pressure gauges are used to test the pressure resistance of products and components, such as pipes and valves, to ensure their safety and reliability.

Research and development: Ultra-high-pressure gauges are used in research and development facilities to measure the pressure of various substances and materials under extreme conditions.

What Are the Considerations When Selecting Ultra-High-Pressure Gauges?

There are several considerations to keep in mind when selecting ultra-high-pressure gauges:

Range of pressure to be measured: Make sure the gauge is suitable for the range of pressure you need to measure. Ultra-high-pressure gauges are designed to measure pressure up to 60,000 psi (413 MPa).

Accuracy requirements: Consider the level of accuracy you need. Ultra-high-pressure gauges are typically less accurate than gauges designed for lower pressure ranges, so you may need to choose a gauge with a larger dial size for greater precision.

Materials of construction: Select a gauge with materials that can withstand the high pressure and any harsh environmental conditions. For example, you may need a gauge with a stainless steel case and bourdon tube to resist corrosion.

Compatibility with media: Make sure the gauge is compatible with the media (gas or liquid) you will be measuring. Different materials are used for different media, so it's important to choose a gauge that is compatible with the specific media you will be using.

Safety features: Consider the safety features of the gauge, such as a burst disk or overpressure stop, to protect against accidental overpressure.

Cost: Ultra-high-pressure gauges can be more expensive than gauges designed for lower pressure ranges, so be sure to consider your budget.

It's also a good idea to consider any industry standards or regulations that may apply to your specific application.