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EPDM O-Rings

EPDM O-Rings

EPDM O-rings are engineered for sealing systems exposed to water, steam, weather, ozone, and polar chemicals. Unlike oil-resistant elastomers such as NBR or FKM, EPDM performs exceptionally well in environments where moisture, temperature fluctuations, and outdoor exposure are major concerns.From potable water equipment and HVAC systems to food processing machinery and automotive cooling circuits, EPDM sealing compounds provide long-term reliability while maintaining flexibility across a wide operating temperature range.

What Is EPDM?

EPDM stands for Ethylene Propylene Diene Monomer, a synthetic elastomer developed specifically for demanding environmental conditions.

Its saturated polymer structure provides outstanding resistance to:

  • Ozone
  • UV radiation
  • Weathering
  • Hot water
  • Steam
  • Glycol-based fluids
  • Diluted acids
  • Diluted alkalis

These characteristics make EPDM one of the most widely specified sealing materials for water handling and outdoor applications.

Why Engineers Choose EPDM O-Rings

Excellent Water and Steam Resistance

Many elastomers degrade rapidly when exposed to hot water or steam. EPDM maintains elasticity and sealing force in these environments, making it a preferred material for:

  • Boilers
  • Steam cleaning systems
  • Water treatment equipment
  • Heat exchangers
  • Beverage processing lines

Peroxide-cured EPDM grades can withstand continuous exposure to elevated temperatures while maintaining lower compression set values.

Outstanding Weather and Ozone Resistance

Outdoor equipment often suffers seal failure due to UV exposure and atmospheric ozone.

EPDM naturally resists:

  • Sunlight degradation
  • Ozone cracking
  • Rain exposure
  • Oxidation
  • Environmental aging

This makes it a common choice for outdoor electrical enclosures, solar systems, and infrastructure equipment.

Reliable Low-Temperature Flexibility

Even in cold climates, EPDM remains flexible and capable of maintaining sealing contact.

Depending on compound formulation, EPDM materials may operate down to approximately:

-40°C to -55°C

This characteristic helps prevent leakage during winter startup conditions.

Introduction to the properties of EPDM O-ring compounds

CompoundsDurometerColorTemp Range (F)Description
E70-C10170Black-67 to +257General purpose
E70-B10470Black-67 to +302NSF 61
E70-B10570Black-67 to +257FDA Compliant, NSF 61
E70-B10870Black-67 to +302UL 157
E70-B50270White-67 to +257Medical Grade, PTFE 1% Internal Lubricant, FDA Compliant
E80-B90180Purple-40 to +212General purpose
E90-B10190Black-22 to +302R744 Refrigerant Compatible

EPDM O-Ring Technical Properties

PropertyTypical Value
Material TypeEPDM
Hardness Range50–90 Shore A
Standard Hardness70 Shore A
Operating Temperature-50°C to +150°C
Color OptionsBlack, White, Purple, Custom
Water ResistanceExcellent
Steam ResistanceExcellent
Ozone ResistanceExcellent
UV ResistanceExcellent
Abrasion ResistanceGood
Electrical InsulationExcellent

Actual performance depends on compound formulation, curing system, operating pressure, and media compatibility.

EPDM Chemical Compatibility Guide

Recommended Media

EPDM O-rings perform well with:

✓ Water

✓ Hot water

✓ Steam

✓ Glycol-based coolants

✓ Brake fluids (DOT 3, DOT 4, DOT 5.1)

✓ Diluted acids

✓ Diluted alkalis

✓ Phosphate ester hydraulic fluids

✓ Alcohols

✓ Ketones

✓ Silicone oils and greases

Media to Avoid

EPDM should generally not be selected for systems containing:

✗ Petroleum oils

✗ Mineral oils

✗ Diesel fuel

✗ Gasoline

✗ Aromatic hydrocarbons

✗ Aliphatic hydrocarbons

✗ Most petroleum-based greases

Using EPDM in these environments can result in swelling, softening, or premature seal failure. For oil-based applications, NBR or FKM are often better alternatives.

Sulfur-Cured vs Peroxide-Cured EPDM

One of the most common questions engineers ask is:

Which EPDM curing system should I choose?

FeatureSulfur-Cured EPDMPeroxide-Cured EPDM
Initial FlexibilityBetterGood
Compression SetModerateExcellent
Heat ResistanceGoodSuperior
Long-Term StabilityModerateExcellent
CostLowerHigher
Steam ApplicationsGoodRecommended

For long-term industrial sealing applications, peroxide-cured EPDM is typically preferred due to its superior resistance to thermal aging and compression set.

How to Select the Right EPDM O-Ring

Before ordering, evaluate the following:

1. Operating Temperature

Determine both continuous and peak temperatures.

2. Media Compatibility

Verify the fluid is compatible with EPDM.

3. Pressure Conditions

Higher pressures may require backup rings or harder compounds.

4. Regulatory Requirements

Check whether your application requires:

  • FDA compliance
  • NSF certification
  • WRAS approval
  • Drinking water approvals

5. Dynamic or Static Sealing

Different applications may require specialized compound formulations to optimize wear resistance and service life.

EPDM O-ring Recommended Use Environment Guide

Performs Well In:

  • Medium: Alcohols, dilute acids, dilute alkalis, silicone oils, silicone greases, water, phosphate ester-based hydraulic fluids

     

  • Environment: Resistant to ozone, aging, and weathering;

     

  • Tolerates steam temperatures up to 204.4℃ (400℉)

     

  • Incompatible media: Ketones

Doesn't Perform Well In:

  • Aliphatic hydrocarbons and aromatic hydrocarbons
  • Diester lubricants
  • Halogenated solvents
  • Petroleum-based oils and greases
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