What are the leakage methods of the sealing ring? Why is there a leak?
There are so many types of seal ring products on the market, which are enough to dazzle buyers. There are many types and uneven quality. Choosing a seal ring product of poor quality naturally
cannot bring us the expected sealing effect. Both the material and the formula are very important to the quality of the sealing ring.
Good-quality sealing ring products usually have a bright and clean appearance without adhesion, bubbles, burrs, etc., and there is no lack of material or breakage in quality, and the size should
also meet the standards and user needs. Choosing a good quality seal ring can greatly help users reduce the risk of leakage. The following content describes in detail several common seal ring
leakage methods and causes of leakage:
Common leaks of sealing rings are divided into four types: interface leakage, penetration leakage, diffusion leakage, and damage leakage.
Due to insufficient compression of the gasket, improper smoothness or deformation of the interface contact surface will cause a certain amount of leakage on the sealing interface.
Because soft materials are usually fibers, they are easily infiltrated by the medium, especially under the action of pressure. Due to the capillary phenomenon, the medium will penetrate to the
low pressure side, so penetration leakage will occur.
Diffusion leakage refers to the leakage caused by the material transfer of the medium through the sealing gap or the capillary tube of the sealing material under the impetus of the concentration
difference. Diffusion is actually the result of molecular motion and is usually not one-way. In a state where the sealing pressure difference is extremely small or in a vacuum, it is necessary to pay
special attention to the occurrence of two types of leakage, such as penetration and diffusion, for easily permeable substances such as nitrogen and hydrogen, and highly toxic and radioactive substances.
The working environment of the sealing part is relatively harsh, thermal deformation is relatively large, and it is often subject to vibration, impact, improper installation, excessive tightening force, repeated
use, compression deformation, internal stress concentration, damage beyond fatigue strength, and material aging Circumstances such as, deterioration, etc. will cause destructive leaks. Such leaks are usually
more serious, and the impact will be more serious. It is necessary to strengthen prevention.
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