Swagelok® Ball and Quarter-Turn Plug Valves
Swagelok's ball valves and plug valves offer a comprehensive fluid shutoff solution for virtually any industry.
Ball Valves | Reliable shutoff valves that can be selected and configured for your application
Plug Valves | Economical and reliable shutoff solution with dependable low-torque operation
Valve selection is an important part of proper design and maintenance practices for industrial, piping, and instrumentation systems. Without the right valve for a specific application, operators could face improper or poor flow rate, increased downtime, and avoidable safety risks.
Ball and plug valves are typically selected during initial fluid system design. Throughout a fluid system’s life, maintenance technicians will usually replace components with the same type already found in the system, as per the specification. This makes it even more important to select the right valve from the beginning.
Swagelok ball valves control fugitive emissions and leakage and can be used in a wide range of applications, from general purpose to critical-service applications. They have been engineered for repeatable, leak-tight shutoff, have low overall cost of ownership, and include full-flow, one-piece instrumentation, three-piece process, trunnion-style, and multipurpose.
Swagelok quarter-turn instrument plug valves are an economical, reliable alternative to ball valves. The simple, compact design delivers full flow and positive shutoff and is available in a variety of materials, including stainless steel, brass, and lightweight PFA.
But How Do You Make the Right Choice?
Choosing the right two-way ball valve when designing or updating your industrial system keeps it running safely and reliably. Learn how to use the STAMPED method to select the optimal Swagelok® 60 series ball valve for your application.
Watch More Valve Videos
Categories
Ball Valve and Plug Valve Catalogs
Locate detailed product information, including materials of construction, pressure and temperature ratings, options, and accessories.
Features: Working pressures up to 10 000 psig (689 bar); 1/8 to 1/2 in. and 6 to 12 mm Swagelok® tube fitting or NPT end connections; 316 stainless steel materials
he full-flow GB series quarter-turn ball valve provides high flow rates at working pressures up to 6000 psig (413 bar) in several corrosion-resistant body materials.
Features: 1/8 to 2 in. and 6 to 25 mm sizes; Stainless steel, carbon steel, brass, and special alloy materials; On-off (2-way) and switching (3-way) valves; Compensating seat design; Live-loaded, two-piece stem packing
Features: Working pressures up to 6000 psig (413 bar); Temperatures from −40 to 302°F (−40 to 150°C); High-flow capacity in a compact design; 1/4 to 3/8 in. and 6 to 8 mm end connections; 316 stainless steel construction
Features: Working pressures up to 3000 psig (206 bar); Swagelok® tube fitting and NPT and ISO tapered pipe end connections; 1/8 through 1/2 in. and 6 through 12 mm sizes; Brass and 316 stainless steel materials
Features: Rack and pinion pneumatic actuators, solenoid valves, and limit switches; ISO 5211-compliant pneumatic actuators, solenoid valves, limit switches, and position sensors; Complete actuated assemblies and kits for field assembly available
Features: On-off, switching, and crossover flow paths; Working pressures up to 3000 psig (206 bar); Temperatures from –65 to 300°F (–53 to 148°C); Environmental and heated-process applications; 1/16 to 3/4 in. and 3 to 12 mm end connections
Features: Working pressures up to 6000 psig (413 bar); Flow coefficients (Cv) from 4.0 to 13.8; Fractional and metric Swagelok tube fittings; ISO and NPT pipe end connections available; 316 stainless steel body and end connections; Manual and pneumatic actuation
Swagelok® offers medium- and high-pressure fittings, tubing, valves, and related accessories with temperatures up 1000°F (537°C), pressure ratings up to 60 000 psig (4134 bar) in sizes ranging from 1/4 to to 1 in. for medium-pressure products and 1/4 to 9/16 in. for high-pressure products. NACE® MR0175/ISO15156 compliance is available.
Features: Quarter-turn operation and full flow design; Light in weight; High-purity PFA material with low extractables for chemical resistance; 1/4 in. Swagelok® PFA tube fitting end connections for consistent performance
Features: 3/8 to 1 in. sizes; alloy 625, alloy 825, Alloy 2507, and alloy 6-moly materials; On-off (2-way) valves; Compensating seat design; Live-loaded, two-piece stem packing
Features: Limits access to manually actuated valves;Lockout accessory enables compliance with OSHA Lockout/Tagout, Standard 29 CFR Part 1910.147, Control of Hazardous Energy Bright safety orange color promotes high visibility. Other colors are available.
Features: Alloy 625, alloy 825, and Alloy 2507 super duplex stainless steel materials; Working pressures up to 6 000 psig (413 bar); 1/4 to 1/2 in. Swagelok® tube fitting or NPT end connections; Compact, maximum-flow design
Calculate Flow Rate for the Right Valve Selection
Use our valve flow coefficient (Cv) calculator to chose a valve sized correctly for your needs.
Use the ToolSwagelok Resources Curated for You
How to Select the Right Valves for Your Industrial Fluid System
Learn how to apply the practical STAMPED method to select the valves most suited to your industrial fluid or sampling system design applications.
Minimize the Costs of Fugitive Emissions with Low-E Valves
Fugitive emissions are a growing concern in the chemical and petroleum refining industry. Certified low-emissions (Low-E) valves can protect your facility and bottom line. Learn what they are, how they are tested, and how they can help you in this post.
How to Isolate Industrial Fluid Systems with Block Valves
The isolation of industrial fluid system lines prior to maintenance is vital to plant safety. One of the safest ways to isolate a fluid system line is to install two block valves. Learn how to design proper configurations for your system.
One New Valve. Three Reasons It Could Change Semiconductor Manufacturing
Find out how the latest innovation in atomic layer deposition (ALD) valve technology is changing the game for high-tech semiconductor manufacturers.