O-RING FAILURE ANALYSIS

 

 

  Prevention of seal failures through proper design, material selection and maintenance certainly minimizes the risk of failure. Attention to the condition of replaced seals, as well as the equipment performance over time, will result in improved process reliability, reduced operating costs and a safer work environment.

O-ring seals often fail prematurely in applications because of improper design or compound selection. This section is designed to provide the user with examples of common failure modes. By correctly identifying the failure mode, changes in the design or seal material can lead to improved seal performance. 

From the end-user’s point of view, a seal can fail in three (3) general ways: 

  • Leaking 
  • Contamination 
  • Change in Appearance 

 

  ENVIRONMENT ANALYSIS

 

 

  One major factor in possible seal failure is the extreme and harsh environment in which seals are expected to perform.  The sealing environment can consist of virtually anything from inert gases at room temperatures to aggressive chemicals at very high temperatures. The sealing environment may result in chemical degradation or swelling of the sealing components. Elevated temperatures may cause seal degradation, swelling or outgassing. And the pressure—or more often, the vacuum environments—can cause outgassing and weight loss.

Contributing factors to seal failure in the sealing environment include: 

  • Chemical— the type of chemical(s) in service 
  • Thermal— the operating ranges of the seal (also any thermal cycling) 
  • Pressure/Vacuum— the range of pressures or vacuum levels in the process

 

  SEAL DESIGN ANALYSIS

 

 Analysis of the seal application is crucial to the understanding of possible 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. Vacuum applications have historically relied on high levels of compression and gland fill to reduce permeation and trapped gases. These techniques, when applied to new materials, or at higher operating temperatures, can result in premature seal failure. 

The seal design and application can provide information about the cause of failure: 

  • Static Seals— axial and radial, confined or unconfined 
  • Dynamic Seals— axial (open-close) or radial (reciprocating or rotary) 
  • Sealing Gland Dimensions— 
    • shape (square, trapezoidal, etc.) 
    • compression 
    • gland fill 
    • stretch 
  • Installation Procedures— stretch

 

         

So in the last two weeks blogs, we’ve learned a lot goes into the proper selection and installation of o-rings.  They might be the easiest and simplest of seals, but still need to be selected carefully and installed properly.

Call:  1 (800) 445-7803 or                       Email:  sales@rocketseals.com

 

          (303) 777-7024                               Fax:  (303) 777-7115