Fluoroelastomer Specialists
A distributor is part of a vehicle’s ignition system and its operation is to route the ignition coil high voltage to the spark plug. In a distributor two seals are used, one at the entrance of a distributor shaft to the distributor housing and the second seal is used to seal the shaft to the intake manifold. The second seal in a distributor is called as automotive distributor O ring. An automotive distributor O ring can be of various sizes depending upon the size of an engine and the vehicle it is being used for.
Furthermore, the automotive distributor O ring is durable & flexible, and form a tighter seal when wet. A range of materials are used to manufacture the automotive distributor O ring including, Ethylene Propylene Diene Monomer (EPDM) rubber, Nitrile (NBR) rubber, Silicone rubber, Viton rubber, etc. Each material provide a different physical characteristics to an automotive distributor O ring. An automotive distributor O ring have several technical advantages over other seals such as, flexibility, superior sealing, wide array of sizes, reusability and low manufacturing costs. Also, the automotive distributor O ring is simple is design and can be easily replaced. Furthermore, the automotive distributor O ring have high temperature and pressure tolerance (around 100 bar), which are far greater then gaskets.
However, automotive distributor O rings have a shorter life cycle and need to be replaced after a certain time period, which can restrain the growth of the automotive distributor O ring market in the near future.
Automotive Distributor O Ring Market: Dynamics:
With the automotive distributor O ring provides several advantages over other seal types including, flexibility, superior sealing, wide array of sizes, reusability and low manufacturing costs, the associated factors are expected to lay a strong base for the significant growth of automotive distributor O ring market in the present and upcoming times.
Read more: Automotive Distributor O Ring Market Gain Impetus due to the Growing Demand over 2029