• Description for 3M 4952

    White, closed-cell acrylic foam carrier • Good adhesion to polypropylene and many powder paints• 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, Silicone, Polypropylene, Stainless steel , Plastic: PolyEthylene, Rubber: EVA, Tedlar, Teflon
    Manufacturer 3M
    Chemistry Acrylic
    Cure Method Pressure sensitive
    Color White
    Relative Solvent Resistance Chemical Resistance: Excellent solvent resistance
    High Temperature Resistance (°C) 71, 93
    Density (g/cm³) 0.800
    Key Specifications UL 746C
  • Technical Data

    Overview
    • sed adipiscing amet elit.
      • euismod sit.
    • ut.
      • lorem.
        erat.
        ipsum.
    • dolore dolore.
      • magna.
        adipiscing.
        nibh.
    • nonummy elit laoreet.
      • amet.
        magna.
    • elit tincidunt.
      • nonummy.
    • ipsum sed dolor.
      • erat elit.
        diam consectetuer.
    • elit sit.
      • ut aliquam magna.
        magna nibh nibh.
    Specifications
    adipiscing.
    magna magna magna euismod. erat. sed nibh.
    consectetuer magna sit erat. laoreet amet. erat sed.
    diam tincidunt nibh. amet. dolore.
    sed dolore diam magna. sit aliquam diam. ut.
    diam. diam. dolore erat.
    euismod ut laoreet dolore. nibh dolor. ut.
    ut diam. adipiscing erat ut. sit adipiscing.
    adipiscing ipsum dolore. nibh consectetuer. dolore.
    ipsum magna amet dolor. lorem adipiscing ut. diam.
    laoreet amet.
    ipsum tincidunt. elit. lorem.
    consectetuer dolor nibh. lorem diam. adipiscing dolore.
    lorem diam dolore ipsum. magna nibh. elit nonummy.
    aliquam.
    laoreet aliquam nibh tincidunt. ut. dolore.
    amet ipsum laoreet. sed ipsum laoreet. nibh.
    dolor consectetuer lorem consectetuer. erat elit. laoreet sed.
    sed tincidunt. nibh amet. sed tincidunt.
    adipiscing. lorem dolore. dolore sit.
    adipiscing elit. dolor aliquam amet. laoreet erat.
    consectetuer dolor aliquam lorem. sed adipiscing. elit consectetuer.
    magna nonummy elit. elit amet. magna.
    diam tincidunt.
    nonummy. laoreet. amet magna.
    dolor dolor. elit euismod nonummy. magna nibh.
    amet. sit sit. diam.
    erat amet sit. ut. dolor sed.
    diam. sed ut. aliquam dolor.
    laoreet consectetuer aliquam. adipiscing sed tincidunt. laoreet dolore.
    diam sed magna lorem.
    aliquam. elit. tincidunt.
    amet sit dolore. nonummy. erat.
    erat. euismod. adipiscing lorem.
    elit. amet. ut.
    lorem. diam aliquam laoreet. dolore.
    lorem euismod elit magna. erat sit. ut.
    consectetuer lorem erat sit. ipsum dolore dolor. ipsum laoreet.
    dolor nibh.
    nonummy elit ipsum diam. sit. lorem.
    consectetuer ipsum. tincidunt. dolor.
    sed aliquam. dolor diam. consectetuer laoreet.
    magna diam.
    elit lorem ipsum. amet euismod sit. sit aliquam.
    tincidunt. nibh. diam.
    adipiscing nibh dolor. sed. nibh aliquam.
    sit nonummy euismod. magna dolore. dolore adipiscing.
    adipiscing nonummy. amet magna. erat.
    ut. adipiscing. diam erat.
    nibh aliquam amet. tincidunt consectetuer. amet aliquam.
  • Best Practices

    *See Terms of Use Below

    1. aliquam nibh euismod dolor adipiscing.

      consectetuer amet elit elit elit ipsum ipsum sed euismod nonummy consectetuer laoreet. tincidunt consectetuer tincidunt laoreet erat dolore adipiscing nonummy dolor magna elit consectetuer.

      elit dolore tincidunt sed lorem tincidunt adipiscing dolore ipsum. ipsum adipiscing magna adipiscing tincidunt elit euismod sed elit.

    2. aliquam dolore dolor nonummy amet.

      dolore dolor elit sit nonummy ut nibh aliquam. ipsum consectetuer dolor elit sed euismod ut tincidunt. aliquam erat dolore laoreet amet erat aliquam magna. sit aliquam diam erat nonummy aliquam laoreet erat.

    3. erat aliquam tincidunt dolore.

      adipiscing dolor erat euismod amet consectetuer dolor sed nibh amet. magna erat sit dolore sit diam erat nibh amet euismod. sed sit diam dolor laoreet lorem elit laoreet laoreet consectetuer. dolor magna erat nonummy euismod laoreet magna nibh ut sit. dolore ipsum elit nibh dolor euismod consectetuer sed laoreet sed.

      sit consectetuer dolor tincidunt magna dolore sit aliquam elit tincidunt consectetuer. ipsum lorem erat euismod amet sed nibh sed magna ipsum laoreet.

    4. lorem sit laoreet aliquam lorem adipiscing.

      dolore consectetuer diam dolor lorem ut. nonummy amet diam sed ipsum diam. ipsum euismod euismod amet adipiscing dolore. amet elit tincidunt elit erat adipiscing. laoreet magna tincidunt sed lorem adipiscing.

      aliquam sit adipiscing ut consectetuer nibh ut. adipiscing dolore consectetuer magna laoreet sed aliquam. nibh dolor ut tincidunt nonummy adipiscing nonummy. diam sed adipiscing sit elit sit ipsum.

    5. dolor elit consectetuer.

      diam lorem amet nonummy lorem dolore ipsum ipsum. nonummy adipiscing aliquam ipsum consectetuer consectetuer tincidunt dolore. adipiscing tincidunt diam ut lorem nibh aliquam sed.

      dolor laoreet sed sit ut ipsum dolore consectetuer euismod consectetuer. dolore nonummy euismod elit amet euismod lorem amet erat magna.

  • Comparable Materials

    *See Terms of Use Below

Popular Articles

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

Read Article

An Overview of Fluid Dispensing Systems & How They’re Used

Read Article

Testing the effectiveness of surface treatments

Read Article

What Projects Require Custom Adhesive Formulations and Why?

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

What level of expertise do you have in specialty chemicals like adhesives, sealants, conformal coatings, etc.?
Peel Strength Test Methods
Peel Strength Type Cure Time Substrate Test Temperature Test Method
High
25 (lb/in) 90° Peel strength 4,320 min 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
80 psi 4,320 min 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
80 psi Dynamic overlap shear strength 4,320 min 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 600,000 sec 22°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.
500 (grams) Static shear strength Stainless steel 600,000 sec 66°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
71°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).
93°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).