Dynamic EPDM Rubber Seals

About Dynamic EPDM Rubber Seals

Dynamic EPDM rubber seals fall into one of two categories, contact and clearance. Contact seals have the seal bear against its mating surface under positive pressure. Clearance seals operate with positive clearance, meaning there is no rubbing contact. The majority of dynamic seals are contact seals. The seal is separated by a thin layer of oil film, which also serves as a lubricant.

Special Features

■ High temperature resistance: Dynamic EPDM seals have excellent high temperature resistance. They are able to maintain their performance in high temperature environments, often withstanding temperatures up to over 150°C. This makes them ideal for applications that require sealing at high temperatures, such as automotive engines and industrial heating equipment.

■ Low-temperature elasticity: Dynamic rubber seals can still maintain good elasticity in low-temperature environments. Compared to other rubber materials, such as NBR (nitrile butadiene rubber), EPDM rubber does not easily become brittle or lose its elasticity at low temperatures, making it more suitable for use in refrigeration equipment, refrigeration systems and low-temperature applications.

■ UV stability: Dynamic EPDM rubber seals have good stability to ultraviolet (UV) radiation. UV radiation can cause rubber to age and degrade, but EPDM rubber is resistant to the effects of UV rays and therefore has a long service life in outdoor applications.

■ Water Vapor Barrier: Dynamic seals are excellent at blocking water vapor. They have excellent barrier properties and can effectively prevent the penetration and leakage of water vapor. This makes them ideal for applications where resistance to water vapor penetration is required, such as automotive cooling systems and steam pipes.

■ Food grade certification: Some Dynamic EPDM rubber seals can obtain food grade certification and comply with food safety standards. This makes them suitable for applications in the food and beverage industry, such as food processing equipment and beverage filling machines.

Dynamic Seals of Types

1. Oil and Grease Seals – Oil and grease seals have a flexible lip that rubs against a shaft or housing to prevent the leakage of fluids. Some oil and grease seals include a spring to help keep the lip in contact with the shaft. The seal helps to prevent lubricant from escaping and harmful contaminants from entering the machine. They are a critical component in almost every type of machine and vehicle.

2. Hydraulic and Pneumatic Seals -Hydraulic and pneumatic seals are designed for devices that provide reciprocating motion. They can be used in high-pressure, dynamic applications to restrict the leakage of fluid and the entry of foreign materials. Hydraulic seals are important in converting fluid power to linear motion. Pneumatic seals have a similar design but typically operate in air or other gaseous mediums. This category includes piston seals, rod seals, U-cups, and flange packages.

3. Piston ring – Piston rings are metallic piston rings used to seal cylinders. They have a higher working temperature than elastomeric, fabric, or polymer materials. Piston rings are available in a variety of configurations, including compression rings, split rings, and cord rings.

4. Exclusion seals – Exclusion seals are dynamic seals such as wipers and scrapers that support sliding or reciprocating motion. They clean the surface by scraping abrasive particles such as dirt, mud, and ice. Exclusion seals are very important because they protect the seal and extend its service life. The wipers should be checked frequently to ensure they are in good working condition. Often the wipers fail causing the seal to fail.

5. Clearance or labyrinth seals – Clearance or labyrinth seals provide positive clearance and do not rub against the shaft or housing. Labyrinth seals restrict the passage of solid, liquid, and gaseous contaminants into the area using a network of passageways. These seals also prevent leakage of fluid out of the sealed containment. Many clearance seals consist of a rotor and a stator. For proper sealing, the radial gap between these members must exceed the clearance of the bearing being sealed. Labyrinth seals will not damage the shaft because it is frictionless. They can also be used in extreme temperatures and high shaft rotating speeds without affecting their life expectancy. Clearance seals, which do not perform well at low operating speeds, include laminar products that contain a series of flat metal washer-like rings of varying diameters.

5. Bearing isolators – Bearing isolators provide total bearing protection by preventing lubricant leakage and excluding contaminants from the bearing house. The lip seals used are designed to keep lubricants in but do not always keep all the contaminants out. The bearing life can be greatly reduced by a tiny amount of dirt or water. Many bearing isolators use a labyrinth seal design.

Specifications

Dynamic EPDM rubber seals are influenced by several factors in their service life. The effect of these factors should be considered when selecting a seal.

1. Maximum operating speed – The speed or velocity of the media in the system can affect the performance and service life of the seal. The seal sits on a film of lubricant between the seal lip and the moving surface. The amount of friction depends on the thickness of the lubricating film. The film is squeezed to its minimum thickness when there is no movement, as an increase in velocity causes more lubricant to be drawn between the seal the the moving surface, and friction of the system decreases. Maximum operating speed is generally given as ft/min or m/sec. Past the maximum operating speed, the frictional force rises and the seal will begin to wear.

2. Maximum operating pressure – This is the maximum pressure that the seal is rated for without failure. If the pressure is too high the seal will be forced into the gap which exists between tolerance machined parts at the non-pressure side of the seal. The seal will begin to extrude causing premature failure. Anti-extrusion rings are available which minimize extrusion and maintain reasonable machining tolerances.

3. Vacuum Rated – The seal can operate in a vacuum.

4. Operating Temperature – This is the full required range of ambient operating temperature. The operating temperature range ranges for the media in the system. The range for felt is – 65° F to 200° F (- 54° C to 93° C). If the temperature gets too cold for the seal, the material may stiffen and become brittle and then relax again once the temperature heats up. Higher temperatures will cause the material to become elastic and lose the compression set. The fatigue of temperature changes can cause a seal to fail so special attention should be paid to the characteristics of the material chosen in the temperature range of the system.

Materials

Seals can be made of rubber or polymer, metals, or other materials including felt, and leather.

1. Polymers or rubbers – Dynamic seals are made of natural and synthetic rubbers, polymers and elastomers, metallic compounds, and specialty materials. Ethylene propylene diene monomer (EPDM), a high-density synthetic rubber, provides superior durability for dynamic seals. Commonly used polymers and elastomers include fluoroelastomer, fluorosilicone, nitrile, polyamide, polyacrylate, polyetheretherketone, polyoxymethylene, urethane, polyurethane, and polytetrafluoroethylene.

2. Metals – Metallic seals are made of sintered bronze, cast iron, or stainless steel. Sintered bronze is not suitable for heavily loaded applications, but is useful when lubrication is inconvenient. Cast iron is a family of materials made mainly of iron but with important trace amounts of carbon and silicon. Stainless steel is chemical and corrosion-resistant and can have relatively high-pressure ratings.

3. Specialty materials – Specialty materials for dynamic seals include leather and felt. Felt seals are used primarily with heavy lubricants.

Conclusions

Dynamic EPDM rubber seals are sealing elements widely used in various industrial fields. Its application range is very wide, including but not limited to the automotive industry, construction industry, chemical industry, food and beverage industry, etc. For the design and manufacture of dynamic EPDM rubber seals, multiple factors need to be considered, including temperature, pressure, chemical compatibility, mechanical vibration and fatigue life. Different application scenarios require sealing materials with different specifications and properties, so they need to be customized according to specific needs. During the manufacturing process, advanced production processes and technologies are required to ensure the quality and performance of sealing materials.