FCT non-slam check valves are engineered to prevent reverse flow without water hammer, using a spring-assisted disc that closes smoothly and silently. Ideal for high-pressure and fast-closing systems, they protect pumps, compressors, and piping in water, steam, and gas applications.
Learn MoreFCT axial flow check valves (also known as nozzle check valves) are designed for high-speed, non-slam operation with minimal pressure drop. Their spring-loaded, axial disc movement ensures silent and immediate closure upon flow reversal—ideal for compressors, pumps, and critical flow systems.
Learn MoreFCT pressure seal tilting disc check valves are engineered for high-pressure, high-temperature applications where quick, non-slam closure and compact construction are essential. Their pressure-energized bonnet ensures superior sealing while the tilting disc provides low-pressure drop and silent operation.
Learn MoreFCT pressure seal swing check valves are designed for high-pressure, high-temperature systems requiring reliable backflow prevention with minimal maintenance. Their pressure-energized bonnet and robust swing disc design ensure tight sealing and long service life in demanding flow conditions.
Learn MoreFCT single plate wafer check valves are compact, lightweight, and designed for efficient backflow prevention in space-constrained pipelines. Their wafer-style body and single-disc design ensure minimal pressure drop and easy installation between flanges in horizontal or vertical lines.
Learn MoreFCT dual plate wafer check valves are compact, lightweight, and energy-efficient solutions for preventing backflow. With a spring-loaded twin disc design, they provide non-slam operation and low-pressure drop, making them ideal for water, gas, and process systems.
Learn MoreFCT lift check valves are designed to prevent reverse flow in horizontal or vertical pipelines carrying clean fluids. With a guided disc that lifts under forward pressure and drops back to the seat upon flow reversal, these valves offer fast, reliable shut-off and minimal leakage.
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