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A: Michael Kline, Vortex Global, says:

How an iris valve works. Most of us are familiar with the iris diaphragm, a simple mechanism that can expand or decrease the opening of a circular hole. Common examples are camera shutters and the irises in our eyes, which both control the entry of light. Maybe you’ve seen spaceship iris doors opening and closing in sci-fi films. The iris mechanism is also present in the world of dry bulk solids handling, where it’s called an iris valve. The iris valve’s function is to gently control the discharge of free-flowing powders, granules, and pellets — including chemicals, food and dairy products, pharmaceuticals, minerals, and plastics — in gravity-flow applications.

Mechanics of an iris valve. The iris valve consists of a metal-cased valve body enclosing two concentric rings, connected by a flexible material sleeve. One end of the sleeve is fixed inside the valve body. The other end is attached to a control ring that’s manipulated by an external handle. As the handle is rotated through a 180-degree arc, the sleeve is twisted to the point that it becomes a flat, tight solid barrier.

Unlike a conventional slide-gate or butterfly valve, where a blade or disc crosses and obstructs the column of flowing material, the iris valve has a circular opening that closes toward the center of the material column. When the iris valve opens, its circular opening creates a small “cone” of material that flows directly into the receiving container’s center, providing easier container filling.

Iris valves are typically actuated manually and are offered in two main handle options: an external twist or quick-lock handle. With the twist handle, the operator rotates the handle to control the valve’s opening in an infinite number of positions across the 180-degree arc. The quick-lock handle incorporates a locking mechanism, allowing quicker actuation to a limited number of setpoints on the valve body. A handwheel may be used to manually open larger-diameter iris valves. Iris valves equipped with a pneumatic or electric actuator have significantly higher costs than manual valves. However, the actuator may be linked by any of several methods to a PLC or other control system to suit the application.

Component construction materials. The valve components can be made of various materials to suit your application.

Valve body. The iris valve body is commonly constructed of aluminum. Type 304 and 316L stainless steels are also available for food applications, caustic environments, or applications with both issues but have a significantly higher cost than aluminum. Some iris valve suppliers offer aluminum valve bodies in which only the material-contact areas are lined with stainless steel, which reduces the valve’s cost.

Control ring and handle materials. The iris valve control ring can be made of polycarbonate, bronze, or stainless steel, depending on the supplier. The ring’s external twist or quick-lock handle, as well as the locking mechanism on a quick-lock handle, can also be made of polycarbonate, bronze, or stainless steel. Carefully selecting construction materials for these components will prevent operating problems.

Sleeve materials. The sleeves for iris valves are available in a variety of materials to accommodate a range of bulk handling requirements. A sleeve made of two fabric layers is often used to handle a fine powder that generates dust. Iris valves are typically available in, but are not limited to, the following types of sleeve materials:

  • Nylon
  • Silicone
  • Teflon
  • Urethane
  • Buna-N (Nitrile) rubber
  • Natural rubber

Consulting your supplier on which sleeve material is best for handling specific applications is important, as some of the least assuming materials can be caustic or abrasive for certain sleeve materials.

Pros and cons. While the iris valve can be an efficient and cost-effective means of controlling the dry bulk solids discharge in many applications, it does have limitations. Before selecting an iris valve, consider these pros and cons.


  • Inexpensive when manually actuated.
  • Lightweight and disassembles easily, making it easy to install, clean, and maintain, especially in confined areas.
  • Ideal for use with friable and explosive materials. (In applications handling explosive materials, the valve and surrounding equipment must be properly grounded to avoid electrostatic discharges, and when the valve is equipped with an electric actuator or controls, these must meet applicable NEMA standards in the US or ATEX standards in European Union countries.)
  • Unobstructed opening that opens and closes toward the valve’s center, allowing the discharged material to evenly fill containers.


  • Unable to handle high-volume, continuous material flow.
  • Can’t handle heavy, abrasive material.
  • Can’t close through a standing column of material.
  • Can’t handle frequent open-close cycles in direct-contact applications.
  • Can’t support heavy equipment suspended from it.
  • Has a bolt-hole mounting pattern that usually differs between different suppliers.

When to use an iris valve
Torque: Iris valves are subject to torsional stress, especially as they’re being closed. Handles and locking mechanisms made of polycarbonate are subject to distortion and breakage. Polycarbonate control rings are subject to the same problems. For applications that require a lot of torque pressure, a stainless steel handle and mechanism is best.

Mounting to existing equipment: Most iris valves typically have bolt hole-mounting patterns offered as a standard; however, this pattern may differ from manufacturer to manufacturer. Mating spool pieces and ferrule-type connections can also be applied to the valve to match mounting requirements.

Vortex Global, is the parent company of Vortex, Salina, KS, which supplies slide gates, diverter valves, iris diaphragms, and loadout equipment for the dry bulk solids handling industries.