• Description for 3M 4959

    • White, closed-cell acrylic foam carrier • used on high surface energy plastic substrates • Apply as low as 50°F (10°C)

    *See Terms of Use Below

    Application Type Bond
    1 Part or 2 Part 1 Part
    Material Form Tape
    Substrate Aluminum, Ceramic, Glass, Metal, ABS, Polycarbonate, Polyester, Rigid PVC, Enameled Steel, Stainless Steel, Galvanized Steel, Epoxy, Galvanized Steel, PBT, Plastic, Steel
    Manufacturer 3M
    Chemistry Acrylic
    Cure Method Pressure sensitive
    Color White
    Relative Solvent Resistance Chemical Resistance: Excellent solvent resistance
    High Temperature Resistance (°C) 149, 204, <120
    Low Temperature Resistance (°C) >-35
    Density (g/cm³) 0.800
    Key Specifications UL 746C
  • Technical Data

    Overview
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    Specifications
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  • Best Practices

    *See Terms of Use Below

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Peel Strength Test Methods
Peel Strength Type Cure Time Substrate Test Temperature Test Method
High
20 (lb/in) 90° Peel Strength 72 hour dwell. Stainless Steel 25°C Based on ASTM D3330 -To stainless steel, room temperature, jaw speed 12 in/min (305 mm/min). Average force to remove is measured. 72 hour dwell.
Tensile Strength Test Methods
Tensile Strength Cure Time Substrate Test Temperature Test Method
High
75 psi 72 hour dwell. Aluminum 25°C ASTM D-897 - To aluminum, room temperature, 1 in2 (6.45 cm2), jaw speed 2 in/min (50 mm/min.) Peak force to separate is measured. 72 hour dwell.
Shear Strength Test Methods
Shear Strength Type Cure Time Substrate Test Time Test Temperature Test Method
High
55 psi Dynamic Overlap Shear Strength 72 hour dwell. Stainless Steel 25°C ASTM D-1002 - To stainless steel, room temperature, 1 in2 (6.45 cm2), jaw speed 0.5 in/min (12.7 mm/min.) Peak force to separate is measured. 72 hour dwell.
1500 (grams) Static Shear Strength Stainless Steel 604,800 sec 72°C ASTM D3654 - To stainless steel, tested at various temperatures and gram loadings. 0.5 in2 (3.22 cm2). Will hold listed weight for 10,000 minutes (approximately 7 days). Conversion: 1500 g/0.5 in2 equals 6.6 lb/in2, 500 g/0.5 in2= 2.2 lb/in2.
1000 (grams) Static Shear Strength Stainless Steel 604,800 sec 150°C ASTM D3654 - To stainless steel, tested at various temperatures and gram loadings. 0.5 in2 (3.22 cm2). Will hold listed weight for 10,000 minutes (approximately 7 days). Conversion: 1500 g/0.5 in2 equals 6.6 lb/in2, 500 g/0.5 in2= 2.2 lb/in2.
750 (grams) Static Shear Strength Stainless Steel 604,800 sec 200°C ASTM D3654 - To stainless steel, tested at various temperatures and gram loadings. 0.5 in2 (3.22 cm2). Will hold listed weight for 10,000 minutes (approximately 7 days). Conversion: 1500 g/0.5 in2 equals 6.6 lb/in2, 500 g/0.5 in2= 2.2 lb/in2.
750 (grams) Static Shear Strength Stainless Steel 604,800 sec 250°C ASTM D3654 - To stainless steel, tested at various temperatures and gram loadings. 0.5 in2 (3.22 cm2). Will hold listed weight for 10,000 minutes (approximately 7 days). Conversion: 1500 g/0.5 in2 equals 6.6 lb/in2, 500 g/0.5 in2= 2.2 lb/in2.
750 (grams) Static Shear Strength Stainless Steel 604,800 sec 350°C ASTM D3654 - To stainless steel, tested at various temperatures and gram loadings. 0.5 in2 (3.22 cm2). Will hold listed weight for 10,000 minutes (approximately 7 days). Conversion: 1500 g/0.5 in2 equals 6.6 lb/in2, 500 g/0.5 in2= 2.2 lb/in2.
High Temperature Resistance Test Methods
High Temperature Resistance Test Method
149°C Long Term Temperature Tolerance - Maximum temperature where tape supports at least 250 g load per 0.5 in2 in static shear for 10,000 minutes. (Represents continuous exposure for days or weeks)
204°C Short Term Temperature Tolerance - No change in room temperature dynamic shear properties following 4 hours conditioning at indicated temperature with 100 g/static load. (Represents minutes, hours in a process type temperature exposure).
<120°C
Modulus Test Methods
Modulus Temperature Test Method
6e5 (Pa) 25°C Shear modulus, 1 Hz
Coefficient of Thermal Expansion (CTE) Test Methods
Coefficient of Thermal Expansion (CTE) CTE Test Method
1e-4 (in./ in/°F) Thermal Coefficient of Expansion
1.8e-4 (mm/mm /°C) Thermal Coefficient of Expansion
180e-6 (m/m/°C) Thermal Coefficient of Expansion