3M EZ17060 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

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Description for 3M EZ17060 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

Long open time, medium set time for bonding a wide variety of substrates including wood and most plastics excluding polyolefins.

*See Terms of Use Below

Application Type	Bond
1 Part or 2 Part	1 Part
Material Form	Liquid
Substrate	Plastic: Polyacrylic, Aluminum, Rubber: SBR, Glass, most plastics excluding polyolefins, Polycarbonate, PVC, Rubber, Wood, FRP, Plastic: Polyacrylic, ABS, High Impact Polycarbonate
Manufacturer	3M
Chemistry	Polyurethane Reactive (PUR)
Cure Method	Moisture
Cure Temperature (°C)	25
Cure Time (min)	10,080
Viscosity (cPs)	9,600
Color	Off-white, White
Density (g/cm³)	9.7 (Lbs/Gallon)

Best Practices for 3M EZ17060 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

*See Terms of Use Below

Surface Preparation

Apply to clean, dry surfaces. Remove oil, grease and other contaminants by wiping with isopropyl alcohol. For fiber reinforced plastics and other materials that are often contaminated with mold release agents, it is recommended that the surface be solvent wiped, abraded and solvent-wiped.

Plastic: Wipe with isopropyl alcohol soaked cheesecloth. Allow solvent to evaporate before bonding. Note: 3M™Scotch-Weld™Polyurethane Reactive (PUR) Easy Adhesives are not recommended for bonding untreated polyolefins.

Plastic contaminated with mold release: Wipe with isopropyl alcohol soaked cheesecloth, abrade with fine grit abrasive, wipe with isopropyl alcohol soaked cheesecloth. Allow solvent to evaporate before bonding.

FRP, Rubber and Aluminum (uncoated):Wipe with methyl ethyl ketone (MEK) soaked cheesecloth, abrade with fine grit abrasive, wipe with MEK soaked cheesecloth. Allow solvent to evaporate before bonding. Priming may be necessary on aluminum if part will be subjected to hot/humid conditions

Glass: Wipe with MEK-soaked cheesecloth. Allow solvent to evaporate before bonding. Priming may be necessary on glass if subject part will be subjected to hot/humid conditions.

Note: When using solvents, extinguish all ignition sources, including pilot light, and follow the manufacturer’s precautions and directions for use when handling such materials.
Application

After heating to recommended application temperature, apply adequate amount of 3M™ Scotch-Weld™ Polyurethane Reactive (PUR) Easy Adhesive to one of the substrates to be bonded. Join the substrates within the adhesives specified open time and hold/fixture the bonded part until the adhesive has adequately set.

Do not use to bond metal or glass to itself or each other or cure will not occur due to low moisture vapor transmission of the substrate.

Important: Adhesive heated at application temperature for more than 40 hours should be discarded.
Curing

The cure rate will vary depending on air temperature, relative humidity, substrate type and bond line thickness as it is more rapid on wood (moisture rich/porous) than on plastic.
Clean-Up

Allow products to solidify. Remove uncured waxy material (usually within the first 20 minutes after application) by scraping with a putty knife or similar tool. For cured material, remove by cutting or sanding. DO not use flame heat to remove adhesive.
Testing

All bonds were cured for a minimum period of 7 days at 77°F (25°C)/50% RH before testing. Bonds were prepared using the suggested surface preparation procedure for the particular substrate tested.

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Technical Data

Overview

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Specifications

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Best Practices

*See Terms of Use Below
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Comparable Materials

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Set Time Test Methods

Set Time	Test Method
1.00 min	The maximum amount of time required between when the bond is made and when it will support a 5 PSI_x00D_ tensile load.
Medium

Viscosity Test Methods

Viscosity	Test Method	Temperature
9,600 cPs	Measured on Brookfield viscometer with Thermosel using spindle #27.	77°C

Work / Pot Time Test Methods

Work / Pot Time	Test Method
2.67 min	The bonding range of a 1/8" bead of molten adhesive on a non-metallic surface
Long

Shear Strength Test Methods

Shear Strength	Type	Substrate	Test Temperature	Test Method
1,545 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.
925 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.
1,025 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, substrate failure
550 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.
1,450 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.
1,275 psi	Overlap Shear Strength	Polyacrylic	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.
440 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.
285 psi	Overlap Shear Strength	PVC		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._x00D_ _x00D_

Tensile Strength Test Methods

Tensile Strength	Cure Time	Cure Temperature	Cure Humidity	Test Method
1,675 psi	10,080 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)

Peel Strength Test Methods

Peel Strength	Type	Substrate	Test Temperature	Test Method
70 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).
45 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).
63 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).
50 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).
50 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).
63 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).
78 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).
29 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
20 piw	T-Peel Strength	Nitrile/Nitrile	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

Elongation Test Methods

Elongation	Test Method
400 %	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
30	Measured on .090" - .110" thick samples.

3M EZ17060 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

Description for 3M EZ17060 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

Best Practices for 3M EZ17060 Scotch-Weld Polyurethane Reactive (PUR) Easy Adhesive

Surface Preparation

Application

Curing

Clean-Up

Testing

Register for FREE to view more details

Why register?

Sign up now Already registered? Sign in!

Technical Data

Overview

amet adipiscing ut adipiscing.

amet.

consectetuer sed.

magna lorem magna amet.

Specifications

magna.

sit consectetuer.

ipsum ut.

consectetuer consectetuer diam consectetuer.

Best Practices

diam magna magna ipsum nonummy tincidunt.

tincidunt sit dolore dolore.

aliquam lorem magna.

Comparable Materials

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Gluespec Poll

What level of expertise do you have in specialty chemicals like adhesives, sealants, conformal coatings, etc.?

Set Time Test Methods

Viscosity Test Methods

Work / Pot Time Test Methods

Shear Strength Test Methods

Tensile Strength Test Methods

Peel Strength Test Methods

Elongation Test Methods

Shore D Hardness Test Methods

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