Spring Energized PTFE Seal
by Sara McCaslin, PhD Sara McCaslin, PhD No Comments

Backup Rings in High-Pressure Sealing Systems: Preventing Seal Extrusion and Extending Service Life

Backup rings in high-pressure sealing systems address face extrusion failure in both dynamic and static seals found in high-pressure systems. Extrusion in sealing occurs when pressurized fluid forces the seal material into the clearance gap between mating surfaces, compromising seal performance. However, backup rings are a simple, low-cost (but critical) solution for extending the service life and maintaining the performance of extreme sealing conditions.

The Challenge of Seal Extrusion in High-Pressure Applications

Seal extrusion happens when pressurized fluid forces part of a sealing element into the clearance gap between mating hardware surfaces. Under high pressure, the soft material deforms plastically and begins to “flow” into this gap, where it can be pinched, torn, or permanently deformed. The result from seal extrusion is nibbling damage along the edges, rapid loss of sealing capability, and, in severe cases, catastrophic leakage.

Extrusion not only shortens seal life but also accelerates equipment wear, drives unplanned downtime, and raises operating costs in hydraulic, pneumatic, and process systems. The causes of seal extrusion are typically high pressure differentials ( > 1500 psi) and/or significant clearance gaps, exacerbated by the use of elastomers or polymers that deform plastically under a load. Seal extrusion can be difficult to avoid under certain circumstances, but that is where backup rings come in.

Backup Rings in High-Pressure Sealing Systems: Purpose and Function

Backup rings in high-pressure sealing systems are annular support components that are installed next to a seal, such as an O-ring or a spring-energized seal. They act as an effective barrier to keep the seal from being forced into the clearance gap.

Backup rings come in different configurations, including single-ring, double-ring (for applications with bi-directional pressure), as well as split vs solid rings. Regardless of the configuration chosen, it is critical to achieve a precise fit because too loose undermines support, while too tight causes problems with assembly.

Material Considerations for Backup Rings in High-Pressure Sealing Systems

The three most commonly used materials for backup rings are PTFE, PEEK, and Nylon. However, other materials such as  UHMW-PE, filled PTFE blends for wear resistance, reinforced polymers for high PV limits, may be used.

PTFE

PTFE is an excellent option for backup rings with its extremely low coefficient of friction and extensive chemical compatibility. It works exceptionally well for applications requiring dynamic sealing or very low temperatures. Its primary limitations are the possibility of cold flow under sustained loads, so it might not always be suitable for extreme pressure conditions.

PEEK

PEEK is another good option for use as a backup ring with its high mechanical strength and excellent resistance to extrusion, as well as its thermal stability up to ~250°C. It also possesses exceptional resistance to extrusion. While it may be a more costly option compared to other polymers, it has found widespread application in industries such as aerospace, oil and gas, and high-performance hydraulics.

Nylon (PA)

Nylon works extremely well in moderate conditions with its strength, and it has a more economical price compared to PEEK and PTFE. However, it does have some critical limitations that including swelling and water absorption, both of which can heavily impact tolerances.

Design and Geometry Options

Solid backup rings provide the best extrusion resistance but can be challenging to install. Split rings can simplify the assembly process, but may allowed extrusion under extremely high loads, which essential defeats the purpose of having a backup ring. Another alternative is the use of spiral cut designs, which balance easier installation (without requiring excessive stretching) with maintaining good support for the seal. Contoured cuts such as scarf of step joints further reduce weak points found at splits.

For pressure direction, a single ring works when the load comes from one side, while double rings are necessary for bidirectional pressure. In every case, the trade-off is clear: easier installation often means slightly higher extrusion risk at the joint.

Engineering Considerations for Integration

Housing tolerances are critical for backup rings. Excessive clearance gaps increase the risk of extrusion, while precise fits provide reliable support. Single rings work well when pressure comes from one direction. However, double rings are required when it fluctuates or is bidirectional. Temperature adds another layer of complexity. Heat accelerates creep and changes dimensions through thermal expansion, which weakens long-term performance. Material compatibility is also important. Chemicals, lubricants, or swelling agents can reduce hardness and shorten service life. In failure analysis, extrusion often appears as edge nibbling or shearing. Compression set, on the other hand, leaves the ring permanently deformed. Recognizing the difference is key to preventing repeat issues.

Conclusion

Backup rings extend seal service life by preventing premature failure and protecting against extrusion. They reduce downtime and maintenance costs, which is especially valuable in high-value systems. Reliability and safety improve in critical applications where failures aren’t an option. They also make it possible to use softer elastomers for better sealing performance without increasing the risk of extrusion.

Investing in the right backup ring extends seal life, reduces failures, and ultimately saves money and downtime. Contact us at Advanced EMC to learn more about backup ring solutions.

by Denise Sullivan Denise Sullivan No Comments

Unveiling the Power of Polymer Backup Rings: Use and Applications

In the world of industrial sealing solutions, reliability, and durability are paramount. Among the many components that ensure effective sealing, polymer backup rings play a crucial role. These versatile rings are essential in preventing extrusion and maintaining the integrity of seals under high-pressure conditions. In this blog post, we’ll explore the significance of backup rings, their various applications, and the benefits they bring to different industries. Join us as we delve into the world of anti-extrusion rings and uncover how they contribute to the reliability and longevity of sealing systems.

polymer backup rings

What are Polymer Backup Rings?

Polymer backup or anti-extrusion rings are critical components used with O-rings, seals, and gaskets to enhance their performance in high-pressure environments. These rings are typically made from durable polymer materials such as PTFE (polytetrafluoroethylene), PEEK (polyether ether ketone), and other high-performance plastics. They are designed to fit into the gland or groove alongside the primary seal, supporting and preventing the seal from being extruded under pressure.

Critical Benefits of Backup Rings

  1. Extrusion Prevention: One of the primary functions of polymer backup rings is to prevent extrusion of the primary seal. Under high-pressure conditions, seals can deform and be forced into the clearance gap between the mating surfaces, leading to seal failure. Backup rings provide a physical barrier that supports the seal and prevents extrusion, ensuring reliable performance.
  2. Enhanced Seal Life: Polymer backup rings significantly extend the service life of seals by preventing extrusion and reducing the risk of seal damage. This results in reduced maintenance requirements and lower operational costs for industrial equipment.
  3. Temperature and Chemical Resistance: Polymer materials used in backup rings are known for their excellent temperature and chemical resistance. This makes them suitable for various applications involving aggressive chemicals and extreme temperatures.
  4. Versatility: Anti-extrusion rings are available in various sizes, shapes, and materials, making them versatile and adaptable to sealing requirements. They can be customized to fit specific applications, ensuring optimal performance.

Applications of Backup Rings

  1. Hydraulic Systems: In hydraulic systems, where high pressures are typical, backup rings are essential for maintaining the integrity of seals in cylinders, pumps, and valves. They prevent seal extrusion and ensure leak-free operation, even under extreme pressure fluctuations.
  2. Aerospace Industry: The aerospace industry demands high-performance sealing solutions that withstand harsh environments and extreme conditions. Backup rings are used in aircraft hydraulic systems, landing gear, and fuel systems to provide reliable sealing and prevent failures that could compromise safety.
  3. Oil and Gas: Oil and gas industry equipment is often exposed to high pressures, temperatures, and corrosive substances. Polymer backup rings are used in drilling equipment, valves, and pipelines to ensure adequate sealing and prevent leaks in challenging environments.
  4. Automotive Industry: In automotive applications, backup rings enhance the performance and longevity of seals in engine components, transmissions, and braking systems. They help maintain the efficiency and reliability of critical vehicle systems.
  5. Industrial Machinery: Polymer backup rings are widely used in various industrial machinery, including pumps, compressors, and gearboxes. They support seals, prevent extrusion, and ensure the smooth operation of equipment under demanding conditions.

Polymer backup rings are indispensable in modern sealing solutions, providing critical support to seals in high-pressure environments. Their ability to prevent extrusion, enhance seal life, and withstand extreme conditions makes them valuable assets in numerous industries. From hydraulic systems to aerospace, oil and gas, automotive, and industrial machinery, anti-extrusion rings contribute to sealing systems’ reliability, efficiency, and longevity. As industries continue to push the boundaries of performance and durability, backup rings will remain essential in ensuring the success and reliability of critical applications.