Type: | Universal Gimbal Expansion Joint |
Size: | 102″ – 133″ L | 41.5″ W | 41.75″ H | 32″ diameter |
Material: | Carbon Steel | 304 Stainless Steel |
Design: | 100°F @ 285 psig | 102 lb/in/degree Rotational Spring Rate | 15.4″ Lateral Deflection |
Testing: | Hydrotested @ 428 PSIG |
U.S. Bellows custom designed these universal gimbal expansion joints for an oil refinery in Canada. The bellows and liners are fabricated from 304 stainless steel, and the remainder of the components are fabricated from carbon steel. The units range from 102" to 133" long respectively, and sizes supplied are 12"NPS with a gimbal box 27" wide, 27.5" tall and 24"NPS with a gimbal box 41.25" wide, 41.75" tall. They are designed for an operating temperature of 100°F at 285 psig, with a 102 lb/in/degree rotational spring rate and 15.4" of lateral deflection. The expansion joints were 100% dye-penetrant tested and hydro-tested at 428 psig prior to shipment.
Gimbal expansion joints are used in a variety of industrial applications where piping systems experience multidirectional movements due to thermal expansion, vibrations, or other external forces. Here are some common areas where gimbal expansion joints are utilized:
Power Plants: In both fossil fuel and nuclear power plants, gimbal expansion joints are used in the steam, water, and exhaust systems to accommodate thermal expansion and prevent stress on the piping.
Refineries and Petrochemical Plants: These joints are essential in refineries and petrochemical facilities to manage the thermal expansion in pipelines carrying various fluids, including high-temperature hydrocarbons, to ensure safe and efficient operations.
Oil and Gas Industry: Gimbal expansion joints are employed in pipelines that transport oil, gas, and other fluids, especially in offshore drilling platforms, to handle the dynamic movements caused by waves, currents, and thermal effects.
Shipbuilding: In marine applications, gimbal expansion joints are used in the exhaust systems of ships to absorb vibrations and accommodate thermal expansion caused by the operation of engines and other machinery.
Aerospace and Defense: These joints are also found in aerospace applications, such as in rocket propulsion systems, to absorb the significant thermal expansion and mechanical stresses during launch and flight.
PT&P REF. ORIGINAL POST 10012018