• Description for 3M 9719

    A silicone adhesive isotropically conductive pressure sensitive tape.

    *See Terms of Use Below

    Application Type Bond, Laminate
    1 Part or 2 Part 1 Part
    Material Form Transfer tape
    Substrate Aluminum, Copper, Attaching EMI Gaskets attachment to metal surfaces, PVC, Silicon Rubber, Stainless Steel, Silicone, Metal
    Industry Foil, Printed circuit board, Grounding Computer Antistatic and Glare Reduction Screens, Assembly of EMI Cages in Telecommunications Equipment, Attaching foil laminate EMI shields to electrical devices, Attach conductive fabri, Attaching silicone EMI gaskets to electronic cabinets, Attaching foil laminate EMI shields to electronic devices
    Manufacturer 3M
    Chemistry Silicone
    Cure Method Pressure Sensitive
    High Temperature Resistance (°C) 204, 204
  • Technical Data for 3M 9719

    Overview
    • Application Type
    • 1 Part or 2 Part
      • 1 Part or 2 Part - 1 Part
    • Material Form
      • Tape - Transfer tape
    • Substrate
    • Industry
      • Electronics - Foil, Attaching foil laminate EMI shields to electrical devices, Attach conductive fabri, Attaching silicone EMI gaskets to electronic cabinets, Attaching foil laminate EMI shields to electronic devices
      • Printed Circuit Board (PCB) - Printed circuit board
      • Storage & Graphics - Grounding Computer Antistatic and Glare Reduction Screens
      • Telecom / Datacom - Assembly of EMI Cages in Telecommunications Equipment
    • Chemistry
    • Application Method
      • Roll - Roller or finger pressure to exclude air entrapment
      • Contact
    • Cure Method
      • Pressure Sensitive (min) - Pressure Sensitive
    Specifications
    Cure Specs
    Application Temperature (°F) High
    Bond Strength
    Peel Strength (piw) > 30 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 20 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 20 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 20 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 20 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 30 (Oz/In), > 20 (Oz/In) Test Method
    Material Resistance
    High Temperature Resistance (°C) 204, 204
    Conductivity
    Filler Conductive Fibers
    Electrical Conductivity (mhos/cm) Electrically Conductive
    Business Information
    Shelf Life Details Shelf Life of Tape in Roll Form: 12 months from date of manufacture when stored in original cartons at 70°F (21°C) and 50% relative humidity.
    Shelf Life Temperature (°F) 70
    Shelf Life Type From date of manufacture
    Shelf Life (mon) 12
  • Best Practices for 3M 9719

    *See Terms of Use Below

    1. Surface Preparation

      To obtain maximum adhesion, the bonding surfaces must be clean and dry. Isopropyl Alcohol or Non-polar solvent such as Heptane or Toluene can be used as a cleaning solvent.

      Note: When using solvents, extinguish all ignition sources and follow manufacturer’s precautions and directions for use.

  • Comparable Materials for 3M 9719

    *See Terms of Use Below

    Spec Engine® Results

    Closest Results from this Manufacturer

Questions about this material?

3M - 9719

Get personal assistance with your specific application needs.

Your Profile Edit

Popular Articles

Testing the effectiveness of surface treatments

Read Article

Electrically Conductive Adhesives

Read Article

Infographic: ENSURING A STRONG BOND - 6 Basic Methods of Surface Preparation

Read Article

6 objects held together by adhesives you probably can't live without

Read Article

Sponsored Articles

Unique Advantages of Contact Adhesives

Read Article

Using LOCTITE® 454™ is a Valid Option for Engineers Working with a Wide Variety of Materials

Read Article

Sylgard 184 by DOW is the Top Choice for a Transparent, Silicone Encapsulant. Read Why:

Read Article

Case Study: Creating reliable, corrosion-free bonds with LORD® 406 acrylic adhesive

Read Article
Information provided by Gluespec

Why Register?

  • View Technical Details
  • View Test Methods
  • View Key Specifications
  • View Similar Materials
  • Save your Project Searches

Already registered? Sign in.

Questions? Learn more about Gluespec

Gluespec Poll

Which answer best describes a project you are currently working on?
Peel Strength Test Methods
Peel Strength Type Substrate Test Time Test Temperature Test Method
> 30 (Oz/In) 90° Peel Strength Stainless Steel 15 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Aluminum 15 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Copper 15 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 20 (Oz/In) 90° Peel Strength Silicone Rubber 15 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Stainless Steel 60 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Aluminum 60 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Copper 60 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 20 (Oz/In) 90° Peel Strength Silicone Rubber 60 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Stainless Steel 1,440 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Aluminum 1,440 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Copper 1,440 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 20 (Oz/In) 90° Peel Strength Silicone Rubber 1,440 min 22°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Stainless Steel 60 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Aluminum 60 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Copper 60 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 20 (Oz/In) 90° Peel Strength Silicone Rubber 60 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Stainless Steel 1,440 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Aluminum 1,440 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 30 (Oz/In) 90° Peel Strength Copper 1,440 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.
> 20 (Oz/In) 90° Peel Strength Silicone Rubber 1,440 min 70°C Based on 90 degree peel geometry following ASTM D3330 test method. Aluminum foil (2 mil thick) was used as the flexible tape backing for tape 9719. The substrates listed are all rigid materials. The 158°F (70°C) aged samples were peeled at ambient temperature after aging and are indicative of typical long term aging.