O-Ring Failure Chart Troubleshooting Guide

Learn What Causes O-Ring Failure and Solutions

Premature o-ring failure is often the result of improper gland design or compound selection. This section is designed to provide examples of common causes of o-ring failure. By correctly identifying the o-ring failure mode, changes in the design or seal material can lead to improved seal performance.

Analysis of the seal application is crucial to the understanding of possible o-ring failure. Most seal design is performed by component suppliers and equipment manufacturers. The designs are refined as experience is gained. As quickly as process technology changes, however, the experience gained with seal design may not be relevant to the latest process technology.

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O-Ring Failure Improper Groove Sizing

O-Ring Size - Gland Design

O-Ring Failure Description: The O-Ring does not perform as expected without visual damage.

Contributing Factors: Incorrect groove or gland design. Improper o-ring sizing. Hardware damage or misalignment.

Suggested Solutions: Underperforming O-Ring seals can typically be improved by optimizing the O-Ring size or gland design for the specific application conditions.
Refer to our O-Ring gland design guide for general recommendations while understanding multi factor application design can involve estimated tradeoffs that require testing establish performance expectations.

O-Ring Failure Over Compression

Compression Set

O-Ring Failure Description: The seal exhibits a flat-sided cross-section, the flat sides corresponding to the mating seal surfaces.

Contributing Factors: Excessive compression. Excessive temperature. Incompletely cured elastomer. Elastomer with high compression set. Excessive volume swell in chemical.

Suggested Solutions: Low compression set elastomer. Proper gland design for the specific elastomer. Confirm material compatibility.

O-Ring Failure Over Compression

Over Compression

O-Ring Failure Description: The seal exhibits parallel flat surfaces (corresponding to the contact areas) and may develop circumferential splits within the flattened surfaces.

Contributing Factors: Improper design—failure to account for thermal or chemical volume changes, or excessive compression.

Suggested Solutions : Gland design should take into account material responses to chemical and thermal environments.

O-Ring Failure Explosive Decompression

Explosive Decompression

O-Ring Failure Description: The seal exhibits blisters, pits or pocks on its surface. Absorption of gas at high pressure and the subsequent rapid decrease in pressure. The absorbed gas blisters and ruptures the elastomer surface as the pressure is rapidly removed.

Contributing Factors: Rapid pressure changes. Low-modulus/hardness elastomer.

Suggested Solutions : Higher-modulus/hardness elastomer. Slower decompression (release of pressure).

O-ring Outgassing Failure

Outgassing Extraction

O-Ring Failure Description: This failure is often very difficult to detect from examination of the seal. The seal may exhibit a decrease in cross-sectional size.

Contributing Factors: Improper or improperly cured elastomer. High vacuum levels. Low hardness/plasticized elastomer.

Suggested Solutions: Avoid plasticized elastomers. Ensure all seals are properly post-cured to minimize outgassing.

O-ring Failure Nibbing Installation Damage

Installation Damage

O-Ring Failure Description: The seal or parts of the seal may exhibit small cuts, nicks or gashes.

Contributing Factors: Sharp edges on glands or components. Improper sizing of elastomer. Low-modulus/hardness elastomer.  Elastomer surface contamination.

Suggested Solutions: Remove all sharp edges. Proper gland design. Proper elastomer sizing. Higher-modulus/hardness elastomer.

O-ring Failure Abrasion

Abrasion - Friction

O-Ring Failure Description: The seal or parts of the seal exhibit a flat surface parallel to the direction or motion. Loose particles and scrapes may be found on the seal surface.

Contributing Factors: Rough sealing surfaces. Excessive temperature. Process environment containing abrasive particles. Dynamic motion. Poor elastomer surface finish.

Suggested Solutions: Use recommended gland surface finishes. Consider internally lubed elastomers. Eliminate abrasive components.

O-ring Failure Extrusion Damamge

Extrusion (Pressure or Oversized Gland Clearance Gap)

O-Ring Failure Description: The seal develops ragged edges (generally on the low-pressure side) which appear tattered.

Contributing Factors: Excessive clearances. Excessive pressure. Low-modulus/hardness elastomer. Excessive gland fill. Irregular clearance gaps. Sharp gland edges.Improper sizing.

Suggested Solutions: Decrease clearances. Higher-modulus/hard-ness elastomer. Proper gland design. Use of polymer backup rings.

O-ring Twisting Spiral Failure

Spiral Twisting Failure

O-Ring Failure Description: The seal exhibits cuts or marks which spiral around its circumference.

Contributing Factors: Difficult or tight installation (static). Slow reciprocating speed. Low-modulus/hardness elastomer. Irregular O-ring surface finish (including excessive parting line). Excessive gland width. Irregular or rough gland surface finish. Inadequate lubrication.

Suggested Solutions: Correct installation procedures. Higher-modulus elastomer. Internally-lubed elastomers. Proper gland design. Gland surface finish of 8–16 microinch RMS. Possible use of polymer backup rings.

O-ring Thermal Failure

Thermal Degradation

O-Ring Failure Description: The seal may exhibit radial cracks located on the highest temperature surfaces. In addition, certain elastomers may exhibit signs of softening—a shiny surface as a result of excessive temperatures.

Contributing Factors: Elastomer thermal properties. Excessive temperature excursions or cycling.

Suggested Solutions: Selection of an elastomer with improved thermal stability. Evaluation of the possibility of cooling sealing surfaces.

O-ring Chemical Attack Failure

Chemical Degradation

O-Ring Failure Description: The seal may exhibit many signs of degradation including blisters, cracks, voids or discoloration. In some cases, the degradation is observable only by measurement of physical properties.

Contributing Factors: Incompatibility with the chemical and/or thermal environment.

Suggested Solutions: Selection of more chemically resistant elastomer.

O-ring Plasma Attack Failure

Plasma Degradation

O-Ring Failure Description: The seal often exhibits discoloration, as well as powdered residue on the surface and possible erosion of elastomer in the exposed areas.

Contributing Factors: Chemical reactivity of the plasma. Ion bombardment (sputtering). Electron bombardment (heating). Improper gland design. Incompatible seal material.

Suggested Solutions: Plasma-compatible elastomer and compound. Minimize exposed area. Examine gland design.


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Let us prove how responsive our product and application engineers are and that our custom products and custom materials often cost less than our competitors standards.



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