Disc Stack and Valve Cage for Fluid Control
Tungsten carbide tools for oil, gas and petrochemical applications:
Tungsten carbide has been used in flow control technology for many years. The reason: onshore as well as offshore, we often encounter extreme conditions. Moisture, sand and abrasive solids can cause tremendous wear - not only downstream, but in all phases of upstream processing operations after extraction. For many years, SPP CARBIDE has been a leader in offshore technology, exploration technology, mining technology, fluid control technology, hydraulics and pump body technology, drilling technology, power generation and environmental protection, where tungsten carbide and technical ceramics are becoming increasingly important.
products:
Valve inserts, radial bearing sleeves, pistons, complex construction parts for extreme applications
typical applications:
Drill drives, choke valves, control valves, shut-off valves, processing systems, onshore, offshore
Tungsten carbide wear products and tooling for fluid control in oil and gas:
disc stack segment
back disc
valve insert
valve piston
disc stack
bearing bush
cage - oil gas petrochemicals
valve cage
seat
valve disc
front disc
valve cage
piston - pvd coating hardtin®
pulse generator
valve ball with seat
valve disc
stacks
disc stack
valve insert
front and back disc
valve cone
valve needle
valve ball
valve ball cvd coating tic/tin
at home.
we are intimately familiar with offshore technology, exploration techniques, drilling technology and energy production – industries where carbide materials constantly gain in importance.
Manufacture of tungsten carbide components from drawings
Applications include oil and gas extraction, follow-the-drill exploration technology, measurement technology, fluid control technology, painting/finishing, epoxy resin/glue applications, packaging and mining applications.
Related products
Micro Nozzles & Needles for Fluid Dispensing Components
SPP CARBIDE designs and manufactures key components for fluid management dispensing materials, including dispensing, applications including painting/finishing, epoxy/glue applications, packaging and mining applications, adhesives, coatings, sealants, biomaterials and other challenging fluids. Work with SPP CARBIDE to design and manufacture key components for your application. Micro nozzles, carbide nozzles, precision orifice plates, carbide needles, valve seats, seals and valve components, tungsten carbide and technical ceramic firing pins, etc.
Flow Carbide Cages for Oil Industries and Throttle Valves
SPP Carbide product range for oil and gas production includes artificial lift, flow control, and fluid end components manufactured from hard materials as well as specialty steels designed to improve the performance and extend the life of our customers’ products. From simple, straight walled choke beans to products with complex geometries used in ESP pumps. SPP Carbide supplies high-quality materials and components that have made us a leading supplier in this market segment.
The components include cages, sleeves, seats, points, rings, and discs for different design valves.
Tungsten Carbide Control Valves Spare Parts for Oil and Gas
SPP Carbide manufactures flow control components, Gates and Seats, Bushings, Choke and trim components for oil and gas, where the rigours of extraction and follow-on drilling require extremely wear resistant and hard materials. Cemented carbide and technical ceramics are the first choice and our carbide grades and technical ceramics are perfectly suited to their wear requirements. We also offer a selection of hardened steels and tool steels.
SPP Carbide’s fluid handling and flow control products include:
Homogenizer Components
Spray Nozzles and Swirl Chambers
Centrifugal Pump Components
Choke Valve Components and Cages
Control Valve Components
Gate Valve Components
Mechanical Seal Components
Compressor Components
Centrifuge TilesTungsten Carbide Valve Sleeves and Bushings for Flow Control
In logistics transport pipelines, valve seals are susceptible to wear caused by sliding friction from other components, which can exacerbate valve failure. As a result, wear resistance has become an important performance indicator for valves in harsh conditions such as powder transport. spp Carbide has been working in the fluid transport field for 30 years and we are committed to solving the long-term stable production needs of fluid control systems such as coal chemical slurry and oil & gas. Monolithic sintered tungsten carbide carbide is used for sealing parts and is more suitable for hard sealing valve balls for flaps and seats, spools and sleeves, stems and pins, etc.
SPP carbide specialises in the production of wear resistant valve seals for use in harsh operating conditions, thus providing valve life and range. The main applications and types of valves include regulating valves, blackwater valves, slag locking valves, pressure reducing and noise reducing valves etc. The performance indicators of the valves are guaranteed to meet the needs of fluid control.Typical examples of tungsten carbide flow control elements:
Labyrinth bushings, valve bushings
Ball cages, valve cages, etc.
Valve balls and seats
Valve sprue, valve flap, valve plate, etc.
Homogeniser components
Nozzles and vortex chambers
Centrifugal pump components
Throttle valve assemblies and valve cages
Control valve components
Gate valve components
Mechanical seal components
Compressor components
Centrifuge tiles
SPP Carbide is committed to solving high performance research and development for wear resistant parts, we support not only tungsten carbide, cemented carbide but also technical ceramics, sapphire and other crystalline materials to achieve better wear resistance and hardness performance.
SPP Industry Ltd.
In the 1990s, SPP Industry Ltd was one of the first manufacturers to establish CNC machining in China. The company has now established five major machine parks in China, with significant achievements in the areas of 5-axis machining, precision grinding & honing, gear machining, large parts machining, custom tungsten carbide and new material development respectively.
