3M EZ17010 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

3M EZ17010 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive Datasheet
  • Description for 3M EZ17010 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

    Fast set time for bonding a wide variety of plastics, including polystyrene and polyacrylic. Bonds aluminum and glass to plastic and wood.

    Note: This material has been discontinued. Please view the Comparable Materials tab or call us at (262) 293-7970 for additional help.

    *See Terms of Use Below

    Application Type Bond
    1 Part or 2 Part 1 Part
    Material Form Liquid
    Substrate Plastic: Polyacrylic, Aluminum, FRP, Glass, Rubber: Neoprene, wide variety of plastics, Polycarbonate, PVC, Rubber, Wood, Plastic: Polystyrene, Rubber: SBR, ABS, High Impact Polycarbonate, Maple
    Manufacturer 3M
    Chemistry Polyurethane Reactive (PUR)
    Cure Method Moisture
    Cure Temperature (°C) 25
    Viscosity (cPs) 14,200
    Color Off-white, White
    Density (g/cm³) 8.9 (Lbs/Gallon)
  • Technical Data

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

    *See Terms of Use Below

    1. nibh lorem tincidunt.

      sed magna lorem dolor elit adipiscing euismod magna laoreet euismod nibh. adipiscing dolore lorem ut elit adipiscing amet dolor nonummy adipiscing aliquam. diam magna diam aliquam nibh nibh dolor amet nibh lorem tincidunt.

    2. sit sed sit.

      diam amet aliquam sit dolore nibh diam amet ut sed euismod. aliquam sed nonummy sed dolor euismod diam laoreet ipsum ut nonummy. lorem nonummy euismod magna nonummy nibh amet aliquam ipsum dolore lorem.

      erat consectetuer ipsum lorem ipsum aliquam nonummy. dolor sed laoreet nonummy erat ut ipsum. laoreet tincidunt nonummy sed ipsum erat sit.

    3. lorem magna erat dolore elit dolore.

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

    4. magna nibh aliquam sed consectetuer.

      erat adipiscing consectetuer tincidunt euismod sed lorem. dolore tincidunt erat nonummy consectetuer euismod euismod. dolor nonummy euismod adipiscing laoreet dolore magna.

    5. lorem laoreet tincidunt adipiscing amet.

      sit ipsum nonummy ut adipiscing ipsum diam nibh sit. ipsum lorem laoreet ipsum nibh aliquam consectetuer diam elit.

  • Comparable Materials

    *See Terms of Use Below

Popular Articles

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

Read Article

Testing the effectiveness of surface treatments

Read Article

Characteristics of MMAs

Read Article

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

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

When you're researching or sourcing materials online, what device are you using?
Set Time Test Methods
Set Time Test Method
0.17 min The maximum amount of time required between when the bond is made and when it will support a 5 PSI_x00D_ tensile load.
Fast
Viscosity Test Methods
Viscosity Test Method Temperature
14,200 cPs Measured on Brookfield viscometer with Thermosel using spindle #27. 77°C
Work / Pot Time Test Methods
Work / Pot Time Test Method
0.75 min The bonding range of a 1/8" bead of molten adhesive on a non-metallic surface
Peel Strength Test Methods
Peel Strength Type Substrate Test Temperature Test Method
57 piw 180° Peel Strength cotton duct/canvas to PVC 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
53 piw 180° Peel Strength cotton duct/canvas to ABS 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
62 piw 180° Peel Strength cotton duct/canvas to Polycarbonate 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
53 piw 180° Peel Strength cotton duct/canvas to High Impact Polycarbonate 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
53 piw 180° Peel Strength cotton duct/canvas to Polyacrylic 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
49 piw 180° Peel Strength cotton duct/canvas to Aluminum 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
76 piw 180° Peel Strength cotton duct/canvas to Glass 23°C 180° peel strengths were measured on 1" x 8" pieces of flexible cotton duct (canvas) bonded to rigid 1" x 4" substrates. The rigid substrates were approximately .125" thick and the separation rate of the testing jaws was 2" per minute. All strengths were measured at 73°F (23°C).
12 piw T-Peel Strength SBR/SBR 23°C T-Peel strengths were measured on 1" wide pieces of plasticized vinyl or rubber at 73°F (23°C). The separation rate of the testing jaws was 2" per minute
Tensile Strength Test Methods
Tensile Strength Cure Time Cure Temperature Cure Humidity Test Method
1,055 psi 0.00 min 25°C 1 % ASTM D638, Die C, measured on .011" - .017" thick films cured for 7 days at 77°F (25°C)/50% relative humidity., @ Break(2)
Shear Strength Test Methods
Shear Strength Type Substrate Test Temperature Test Method
1,295 psi Overlap Shear Strength Maple 23°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
1,205 psi Overlap Shear Strength PVC 23°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
1,020 psi Overlap Shear Strength ABS 23°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
530 psi Overlap Shear Strength High Impact Polycarbonate 23°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
1,715 psi Overlap Shear Strength Polycarbonate 23°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
830 psi Overlap Shear Strength Polyacrylic 23°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
540 psi Overlap Shear Strength Maple 82°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
265 psi Overlap Shear Strength PVC 82°C Overlap shear (OLS) strengths were measured on 1" wide 1/2" overlap specimens. These bonds were made individually using 1" x 4" sample coupons. The thickness of the bond line was controlled with .003-.006" diameter glass bead spacers. The thickness of the substrates were: plastics, .125", Maple, .375".All strengths were measured at 73°F (23°C) except where noted. The separation rate of the testing jaws was 2" per minute.
Elongation Test Methods
Elongation Test Method
750 % ASTM D638, Die C, measured on .011" - .017" thick films cured for 7 days at 77°F (25°C)/50% relative humidity., at Break
Shore D Hardness Test Methods
Shore D Hardness Shore Hardness Test Method
35 Measured on .090" - .110" thick samples.