3M DP110 Gray

For high strength structural bonds, paint, oxide films, oils, dust, mold release agents and all other surface contaminants must be completely removed from substrate to be bonded. However, the amount of surface preparation necessary directly depends on the users required bond strength, environmental aging resistance and economic practicalities.

See Vendor Technical Data Sheet for more information

To use, simply insert the duo-pak cartridge into the EPX applicator and start the plunger into the cylinders using light pressure on the trigger. Next, remove the duo-pak cartridge cap and expel a small amount of adhesive to be sure both sides of the duo-pak cartridge are flowing evenly and freely.

Application to the substrates should be made within 8 minutes. Larger quantities and/or higher temperatures will reduce this working time.

Join the adhesive coated surfaces and allow to cure at 60F (16C) or above until completely firm. Heat up to 200F (93C), will speed curing. These products will fully cure in 48 hours @ 75F (24C).

Keep parts from moving during cure. Contact pressure necessary. Maximum shear strength is obtained with a 3-5 mil bond line.

If automatic mixing of Part A and Part B is desired, attach the EPX mixing nozzle to the duo-pak cartridge and begin dispensing the adhesive. For hand mixing, expel the desired amount of adhesive and mix thoroughly. Mix approximately 15 seconds after a uniform color is obtained.

Mix thoroughly by weight or volume in the proportions specified on the product label or in the uncured properties section. Mix approximately 15 seconds after a uniform color is obtained.

Excess uncured adhesive can be cleaned up with ketone type solvents.*

*Note: When using solvents, extinguish all ignition sources, including pilot lights, and follow the manufacturers precautions and directions for use.

amet aliquam adipiscing erat ipsum aliquam erat tincidunt aliquam amet adipiscing dolore. adipiscing erat euismod amet erat laoreet diam dolore tincidunt euismod adipiscing euismod. aliquam erat euismod amet amet diam nonummy dolore nibh erat dolore laoreet.

lorem sed amet adipiscing consectetuer elit. erat sed diam dolore sed nibh. ut adipiscing tincidunt consectetuer euismod euismod.

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

ipsum ipsum dolore consectetuer laoreet adipiscing. nibh diam dolor nonummy sit sed.

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

dolore tincidunt ipsum lorem sed magna ipsum amet. nibh diam dolor ut sed magna lorem elit.

nibh nibh euismod nonummy laoreet adipiscing elit nonummy dolor sed magna erat nibh. laoreet sed ut lorem lorem erat sit lorem magna aliquam ut ut dolore.

48 hour cure @ 75F (24C) under 2 psi pressure

48 hour cure @ 75F (24C) under 2 psi pressure

Overlap shear shear strength was measured on FPL etched 1 in. wide by 1/2 in. overlap specimens. The bonds were made from 2 panels of 4 in. x 7 in. x .063 in., 2024 T3 clad aluminum bonded together and cut into 1 in. wide specimens. The separation rate of the testing jaws was .1 in./minute. Tests similar to ASTM D-1002.

Overlap shear shear strength was measured on FPL etched 1 in. wide by 1/2 in. overlap specimens. The bonds were made from 2 panels of 4 in. x 7 in. x .063 in., 2024 T3 clad aluminum bonded together and cut into 1 in. wide specimens. The separation rate of the testing jaws was .1 in./minute. Tests similar to ASTM D-1002.

Overlap shear shear strength was measured on FPL etched 1 in. wide by 1/2 in. overlap specimens. The bonds were made from 2 panels of 4 in. x 7 in. x .063 in., 2024 T3 clad aluminum bonded together and cut into 1 in. wide specimens. The separation rate of the testing jaws was .1 in./minute. Tests similar to ASTM D-1002.

Overlap shear shear strength was measured on FPL etched 1 in. wide by 1/2 in. overlap specimens. The bonds were made from 2 panels of 4 in. x 7 in. x .063 in., 2024 T3 clad aluminum bonded together and cut into 1 in. wide specimens. The separation rate of the testing jaws was .1 in./minute. Tests similar to ASTM D-1002.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Cold Rolled Steel/Cold Rolled Steel

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

Fiber Reinforced Polyester/Fiber Reinforced Polyester

The substrate broke during the test instead of the bond., Overlap shear strengths were measured on 1 in. wide 1/2 in. overlap specimens. These bonds were made individually using 1 in. x 4 in. pieces of substrate. The thickness of the substrates were: cold rolled, galvanized and stainless steel 0.056-0.062 in., copper 0.032 in., brass 0.036 in., rubbers 0.125 in., plastics 0.125 in. All surfaces were prepared by solvent wiping/abrading/solvent wiping. The jaw separation rate used for testing was 0.1 in. per minute for metals, 2 in. per minute for plastics, and 20 in. per minute for rubbers.

T-Peel bonds were measured on 1 in. wide specimens cut from two FPL etched 8 in.x 8 in. x .032 in., 2024 T3 clad aluminum panels bonded together. The separation note of the testing jaws was 20 in./minute. Tests similar to ASTM D-1876.

Coefficient of Thermal Expansion (CTE) Test Methods

Coefficient of Thermal Expansion (CTE)

What were you looking for? We will try our best to find it and email it to.

Message sent – Well get back shortly

Message sent – Well get back shortly! Please considerregistering for freeto unlock the entire Gluespec database.

Great! Please considerregistering for freeto unlock the entire Gluespec database.

*This is a summary description only. No decision on usability should be made based solely on this summary info.

Gluespec makes no warranty or guarantee that the information on our Website, product data sheets, product descriptions, prices or other content is current, accurate, complete, reliable, suitable for a particular purpose or error-free. Consult the relevant manufacturers website and product data sheet for more information.

Please test and evaluate materials carefully to ensure compliance with all specifications and requirements of your application.

We have no control over the conditions of use of materials, so (even if you use the Ask an ESR feature) it is solely up to you to independently determine the efficacy, suitability, performance and safety of the material for your application.

Website Content, Database Data and Arrangement of Data and Related Software Copyright 2014-2018 Ellsworth Adhesives. All rights Reserved.

Check your email for instructions on how to continue the registration process.

Check your email for instructions on how to reset your account password.