Product classification
Product classification
Floating ball valve features simple structure, reliable sealing, low torque, tight shutoff, bidirectional flow, compact design, easy operation, low maintenance, cost efficiency, suitability for medium and low pressure applications.
Floating ball valve features simple structure, reliable sealing, low torque, tight shutoff, bidirectional flow, compact design, easy operation, low maintenance, cost efficiency, suitability for medium and low pressure applications.
Fully welded ball valve features integral welded body, zero external leakage, compact structure, high strength, buried installation suitability, long service life, minimal maintenance, reliable sealing, pipeline applications.
Three-way ball valve features versatile flow control, T- or L-port design, bidirectional flow, compact structure, reliable sealing, easy operation, low maintenance, high temperature and pressure resistance, corrosion resistance, pipeline applications.
Threaded gate valves are used to start or stop fluid flow in small-diameter pipelines, suitable for water, oil, gas, and steam systems, offering reliable shutoff and easy installation with threaded connections.
API gate valves are manufactured by casting or forging the valve body, precision machining flanged ends and internal parts, assembling the ball and seals, then pressure testing to ensure reliable sealing, strength, and durability in pipeline systems.
JIS gate valves are manufactured by casting or forging the valve body, precision machining flanged ends and internal parts, assembling the ball and seals, then pressure testing to ensure reliable sealing, strength, and durability in pipeline systems.
Knife gate valves are used to handle thick, viscous, or slurry fluids in industries like wastewater, pulp, and mining, providing reliable isolation and easy operation in pipelines with suspended solids.
Bellows seal gate valve features metal bellows, zero stem leakage, tight sealing, high temperature resistance, corrosion resistance, reliable operation, long service life, minimal maintenance, suitable for severe industrial applications.
Stainless steel seamless pipes are produced by piercing a solid billet and then elongating it into a hollow tube through extrusion or rotary piercing. The tube is then further stretched and elongated through a series of cold or hot drawing processes to achieve the desired size and thickness, ensuring strength and uniformity.
Stainless steel welded pipes are made by rolling a flat stainless steel sheet into a tube and welding the edges together. The welded seam is then heat-treated, followed by cold or hot forming to achieve the desired size and thickness, ensuring smooth surfaces and uniform strength.
Stainless Steel Precision Tube
Stainless steel precision tubes are produced by drawing solid billets or seamless tubes through dies to achieve precise dimensions and smooth surfaces. The process involves multiple stages of cold drawing, annealing, and pickling to ensure high dimensional accuracy, surface finish, and mechanical properties suitable for high-performance applications.
Sanitary stainless steel tubes are designed for use in industries like food, beverage, and pharmaceuticals. They are made from high-quality stainless steel, ensuring smooth, non-porous surfaces that prevent bacterial growth and contamination. These pipes are manufactured to strict hygiene standards, with no welding seams and easy-to-clean surfaces, meeting regulatory requirements for sanitation and safety.
Stainless Steel Thick-Walled Pipe
Stainless steel thick-walled pipes are produced by either extrusion or mandrel bending processes, where solid billets or tubes are heated and then formed into pipes. The pipes are subjected to multiple stages of hot and cold drawing, followed by heat treatment, to achieve the desired thickness, strength, and mechanical properties. The process ensures uniform wall thickness and high durability.
Stainless steel square tubes are produced through two methods: seamless and welded. In the seamless process, a billet is extruded and drawn into a square shape without welds. In the welded method, a flat sheet is rolled into a square tube and welded at the seam. Both methods involve precise forming, annealing, and finishing for strength and surface quality.
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