O-ring Slot

3/29/2022by admin
  1. O Ring Groove Depth
  2. O-ring Slot Design

Trust and Choose Marco Rubber & Plastics

O Ring Groove Depth

O-Ring Squeeze Compression

  • Static Male/Female: 18-25%
  • Rotary: 0-10%

      • General rule is 0-5%
    • % cross section reduction due to stretch about half of the % ID stretch

      Excessive clearance and or pressure can result in sealextrusion and failure
    • Consider use of Back-Ups or product selection with large gaps or > pressure

      Tolerances should be considered for the O-Ring and the gland
    • O-Ring Gland Surface Finish

    • Static surfaces

    -16Ra to seal gas

      Dynamic Surfaces: 8 to 16Ra
    • Lower durometer materials can be used to seal rough surface finishes

      Corners should be chamfered to limit damage during seal installation

      Gland volume vs. O-Ring volume
      About 25% void space or 75% nominal fill
    • Narrower groove for sealing vacuum or gas
    • O-Ring Eccentricity & Side Loading

    • Can open too wide a clearance gap and result in extrusion of one portion of seal leading to leaks

    High Pressure Extrusion

    Most o-rings are designed to operate at pressures up to 1,500 psi. At higher pressures, the material must have enough strength to resist extruding into the clearance gap. The chart shows the recommended combined limits of clearance, gap, material hardness and system pressure differential. To avoid extrusion at high temperature, reduce the extrusion gap, increase the seal material hardness or add a back-up ring to the o-ring but will require a wider gland.

    Cycling pressure can cause the o-ring to move back and forth within the gland. This motion can damage seals with low abrasion resistant materials. A higher durometer or an abrasion resistant material is recommended for these applications.


    What to Know About O-Ring Squeeze, Stretch, Compression, and More

    Trust and Choose Marco Rubber & Plastics

    O-Ring Squeeze Compression

  • Static Male/Female: 18-25%
  • Rotary: 0-10%

      • General rule is 0-5%
    • % cross section reduction due to stretch about half of the % ID stretch

      Excessive clearance and or pressure can result in sealextrusion and failure
    • Consider use of Back-Ups or product selection with large gaps or > pressure

      Tolerances should be considered for the O-Ring and the gland
    • O-Ring Gland Surface Finish

    • Static surfaces

    -16Ra to seal gas

      Dynamic Surfaces: 8 to 16Ra
    • Lower durometer materials can be used to seal rough surface finishes

      Corners should be chamfered to limit damage during seal installation

      Gland volume vs. O-Ring volume
      About 25% void space or 75% nominal fill
    • Narrower groove for sealing vacuum or gas
    • O-Ring Eccentricity & Side Loading

    • Can open too wide a clearance gap and result in extrusion of one portion of seal leading to leaks
    O-ring Slot

    O-ring Slot Design

    O-ring
    High Pressure Extrusion

    Most o-rings are designed to operate at pressures up to 1,500 psi. At higher pressures, the material must have enough strength to resist extruding into the clearance gap. The chart shows the recommended combined limits of clearance, gap, material hardness and system pressure differential. To avoid extrusion at high temperature, reduce the extrusion gap, increase the seal material hardness or add a back-up ring to the o-ring but will require a wider gland.

    Cycling pressure can cause the o-ring to move back and forth within the gland. This motion can damage seals with low abrasion resistant materials. A higher durometer or an abrasion resistant material is recommended for these applications.

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