3M Scotch Linerless Rubber Splicing Tape 130C Datasheet 3M Scotch Linerless Rubber Splicing Tape 130C

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  • Description for 3M Scotch Linerless Rubber Splicing Tape 130C

    A highly conformable, linerless, Ethylene propylene base, high-voltage insulating tape, formulated to provide excellent thermal dissipation of splice heat.

    *See Terms of Use Below

    Brand Scotch
    Application Type Repair, Seal
    1 Part or 2 Part 1-Part
    Material Form Tape
    Industry Jacket repair, Motor leads, Terminating wires , Moisture-sealing electrical connections, Primary insulation for building stress cones on all types of solid dielectric insulated cables up to 35 kV, Jacketing (secondary insulation) on high-voltage splices and terminations, End-sealing high-voltage cables, Bus bar insulation, Primary insulation for splicing all types of solid dielectric insulated cables through 69 kV, Low-voltage (through 69 kV) applications, Splicing cables, High-voltage (through 69 kV) applications, Terminating cables
    Manufacturer 3M
    Chemistry Ethylene propylene
    Cure Method Pressure Sensitive
    Color Black
    Total Thickness (mm) 0.762
    Ozone Resistance Ozone Resistance
    High Temperature Resistance (°C) Heat Resistance, 90
    Volume Resistivity (O) >10(15) (ohm-cm), >10(14) (ohm-cm)

  • Technical Data for 3M Scotch Linerless Rubber Splicing Tape 130C

    *See Terms of Use Below

    Overview
    • Application Type
    • 1 Part or 2 Part
      • 1-Part
    • Material Form
      • Tape
    • Industry
      • Electronics - Jacketing (secondary insulation) on high-voltage splices and terminations, Moisture-sealing electrical connections, Bus bar insulation, Jacket repair, Low-voltage (through 69 kV) applications, High-voltage (through 69 kV) applications
      • Motors - Motor leads
      • Cable - Terminating wires , Primary insulation for splicing all types of solid dielectric insulated cables through 69 kV, Primary insulation for building stress cones on all types of solid dielectric insulated cables up to 35 kV, End-sealing high-voltage cables, Splicing cables, Terminating cables
    • Chemistry
      • Other - Ethylene propylene
    • Application Method
      • Roll - Wrapped
    • Cure Method
      • Pressure Sensitive (min) - Pressure Sensitive
    • Color
      • Black
    • Brand
      • Scotch
    Specifications
    Bond Strength
    Tensile Strength (psi) 250 Test Method
    Tape Properties
    Total Thickness (mm) 0.762
    Material Resistance
    Ozone Resistance Ozone Resistance
    UV Resistance UV Resistance Test Method
    Environmental Resistance Weather resistant
    High Temperature Resistance (°C) Heat Resistance, 90 Test Method
    Conductivity
    Dissipation Factor 0.70%, 3.00% Test Method
    Dielectric Strength (V/mil) 750, 750, 730 Test Method
    Dielectric Constant 3.50, 3.60 Test Method
    Thermal Conductivity (W/m°K) High, 0.3 (W/m.C) Test Method
    Volume Resistivity (O) >10(15) (ohm-cm), >10(14) (ohm-cm) Test Method
    Hardness
    Elongation (%) 850 Test Method
    Other Properties
    Specific Volume (mm³) >10(15) (ohm-cm), >10(14)(ohm-cm) Test Method
    Business Information
    Shelf Life Details The 130C tape has a shelf life ( from date of manufacture) when stored under the following recommended storage conditions., Scotch® Linerless Rubber Splicing Tape 130C has a 5 year shelf life from the date of manufacture when stored in a temperature and humidity controlled environment: 10°C/50°F to 27°C/80°F and <75% relative humidity.
    Shelf Life Temperature (°F) 70, 50 to 81
    Shelf Life Type From date of manufacture., From date of manufacture
    Shelf Life (mon) 61, 61

  • Best Practices for 3M Scotch Linerless Rubber Splicing Tape 130C

    *See Terms of Use Below

    1. Application

      This tape should be applied in successive half-lapped level wound layers until desired build-up is reached. It should be applied like any rubber tape

      that is, the side of the tape wrapped inside the roll should be applied outside on the splice (tacky side up). This will help prevent the roll from getting progressively further away from the work area.

      To eliminate voids in critical areas, highly elongate 130C tape. Stretch tape in critical areas just short of the breaking point

      doing so will not alter its physical or electrical properties. In less critical areas, less elongation may be used. The tape should be stretched to a minimum of 3/4 its original width. Always attempt to half-lap to produce a uniform buildup. When using 130C tape for splicing cable above 15 kV, always highly elongate the tape throughout the entire splice. Techniques for proper usage of 130C tape are contained in standard and special prints available though the “3M System for Splicing and Terminating” program. These are available through the local 3M Electrical Products Division representative.

  • Comparable Materials for 3M Scotch Linerless Rubber Splicing Tape 130C

    *See Terms of Use Below

    Spec Engine® Results

    • 3M
      8979 SL(3M)

      A unique tape construction that allows for both permanent and temporary applications whether indoors or outdoors. It is removable with little or no adhesive residue from most opaque surfaces up to 6 months after application.

    • 3M
      480(3M)

      A transparent polyethylene backing with a long aging transparent acrylic adhesive. It can be used for splicing and repairing polyethylene sheeting. It is also recommended for sealing and protecting applications.

    • 3M
      3939(3M)

      Composed of waterproof polyethylene film over cloth scrim backing with a rubber adhesive used for demanding duct tape applications.

    • Compare All
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Tensile Strength Test Methods
Tensile Strength Test Temperature Test Method
250 psi 23°C ASTM-D-4325
High Temperature Resistance Test Methods
High Temperature Resistance Test Method
Heat Resistance
90°C Operating Temperature (ASTM D 4388)
UV Resistance Test Methods
UV Resistance Test Method
UV Resistance (ASTM D 4388), Not for specifications. Values are typical, not to be considered minimum or maximum.
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
3.50 23°C ASTM D 4325, 1200 volts @ 60 Hz, Not for specifications. Values are typical, not to be considered minimum or maximum.
3.60 90°C ASTM D 4325, 1200 volts @ 60 Hz, Not for specifications. Values are typical, not to be considered minimum or maximum.
Dielectric Strength Test Methods
Dielectric Strength Test Method
750 V/mil ASTM D 4325, Original , Not for specifications. Values are typical, not to be considered minimum or maximum.
750 V/mil ASTM D 4325, 24 hrs. in H2O, Not for specifications. Values are typical, not to be considered minimum or maximum.
730 V/mil ASTM D 4325, 96 hrs. @ 23°C 96% RH, Not for specifications. Values are typical, not to be considered minimum or maximum.
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.70% 23°C ASTM D 4325, (1200 volts @ 60 Hz), Not for specifications. Values are typical, not to be considered minimum or maximum.
3.00% 90°C ASTM D 4325, (1200 volts @ 60 Hz), Not for specifications. Values are typical, not to be considered minimum or maximum.
Thermal Conductivity Test Methods
Thermal Conductivity Temperature Test Method
High
0.3 (W/m.C) 23°C ( ASTM C 518), Not for specifications. Values are typical, not to be considered minimum or maximum.
Volume Resistivity Test Methods
Volume Resistivity Temp (°C) Test Method
>10(15) (ohm-cm) ASTM D 4325, Original
>10(14) (ohm-cm) 23°C ASTM D 4325, Aged 96 hrs. @ 23°C 96% RH
Elongation Test Methods
Elongation Test Method
850 % (ASTM D 4325), Not for specifications. Values are typical, not to be considered minimum or maximum.
Specific Volume Test Methods
Specific Volume Test Method
>10(15) (ohm-cm) ASTM-D-4325 Original
>10(14)(ohm-cm) ASTM-D-4325 Aged 96 hrs. @ 23°C 96% RH