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LORD® 320/322 adhesive is a general purpose, twocomponent epoxy adhesive system formulated for primerless adhesion to automotive sheet molded compounds (SMC). This adhesive system also provides excellent adhesion to prepared metals, rubber, fiberglass reinforced plastics (FRP), polyester thermosets and thermoplastics, and many other materials. LORD 320/322 adhesive can be either room temperature cured or heat cured for faster processing.
Unit of Measure

Specifications

Shelf Life

 N/A 2 y

Ambient Temperature

 N/A 65 ºF18 ºC

Lap Shear Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC))

N/A 640 psi4.4 MPa

Film Thickness for T-Peel

 N/A 0.020 in

Cure Time at Room Temperature (RT) for T-Peel

 N/A 72 hour

Typical Properties

Appearance

 N/A Off-white Paste
Viscosity at 77 Degree Fahrenheit (ºF) (25 Degree Celsius (ºC)) Temperature1 N/A 300,000 to 1,000,000 cps (T-Bar Spindle D)

Density

 N/A 12.5 to 12.9 lb/gal1498 to 1546 kg/m³

Flash Point (Closed Cup) Temperature

 N/A >200 ºF>93 ºC

Note for Typical Properties

 N/A Data is typical and not to be used for specification purposes.

Typical Properties of Resin Mixed with Hardener

Mix Ratio by Volume - General Purpose -40 to 450 Degree Fahrenheit (ºF) (-40 to 204 Degree Celsius (ºC)) Temperature, Mixed Stress Joint Design

 N/A 1:1

Mix Ratio by Weight - General Purpose -40 to 400 Degree Fahrenheit (ºF) (-40 to 204 Degree Celsius (ºC)) Temperature, Mixed Stress Joint Design

 N/A 1:2:1

Mix Ratio by Volume - High Temperature -50 to 400 Degree Fahrenheit (ºF) (10 to 204 Degree Celsius (ºC)) Temperature, Shear Stress Joint Design

 N/A 1:5:1

Mix Ratio by Weight - High Temperature -50 to 400 Degree Fahrenheit (ºF) (10 to 204 Degree Celsius (ºC)) Temperature, Shear Stress Joint Design

 N/A 1:8:1

Mix Ratio by Volume - Low Temperature, -40 to 100 Degree Fahrenheit (ºF) (-40 to 38 Degree Celsius (ºC)) Temperature, Peel Stress Joint Design

 N/A 1:1.5

Mix Ratio by Weight - Low Temperature, -40 to 100 Degree Fahrenheit (ºF) (-40 to 38 Degree Celsius (ºC)) Temperature, Peel Stress Joint Design

 N/A 1:1.2

Solids Content

 N/A 100 %

Working Time at 75 Degree Fahrenheit (ºF) (24 Degree Celsius (ºC)) Temperature, 54 Gram (g) Mass

 N/A 20 to 40 H

Time to Handling Strength

 N/A 2 to 4 H

Mixed Appearance

 N/A Gray Paste

Cured Appearance

 N/A Gray

Note for Typical Properties of Resin Mixed with Hardener

 N/A Data is typical and not to be used for specification purposes.

Typical Cured Properties

Tensile Strength at Break

 N/A 4440 psi30.6 MPa

Test Method for Tensile Strength (Modified)

 N/A American Society for Testing and Materials (ASTM D882-83A)

Elongation

 N/A 3 %

Test Method for Elongation (Modified)

 N/A American Society for Testing and Materials (ASTM D882-83A)

Young's Modulus

 N/A 230,000 psi1586 MPa

Test Method for Young's Modulus (Modified)

 N/A American Society for Testing and Materials (ASTM D882-83A)

Glass Transition Temperature

 N/A 176 ºF80 ºC

Test Method for Glass Transition Temperature (By Dynamic Mechanical Analysis (DMA))

 N/A American Society for Testing and Materials (ASTM E1640-99)

Bond Performance

Lap Shear Strength Test at Room Temperature (Cold Rolled Steel to Cold Rolled Steel)

N/A 2225 psi15.3 MPa

Failure Mode for Lap Shear Strength Test at Room Temperature (Cold Rolled Steel to Cold Rolled Steel)

 N/A Adhesive Failure (A)

Lap Shear Strength Test at Room Temperature (Aluminum to Aluminum)

N/A 1690 psi11.7 MPa

Failure Mode for Lap Shear Strength Test at Room Temperature (Aluminum to Aluminum)

 N/A Cohesive Failure (C)

Lap Shear Strength Test at Room Temperature (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC))

N/A 620 psi4.3 MPa

Failure Mode for Lap Shear Strength Test at Room Temperature (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC))

 N/A Fiber Tear (FT)

45 Degree (º) Peel Strength Test at Room Temperature (Natural Rubber to Cold Rolled Steel)

 N/A 63 lb/in11.0 N/mm

Failure Mode for 45 Degree (º) Peel Strength Test at Room Temperature (Natural Rubber to Cold Rolled Steel)

 N/A Rubber Failure (R)

T-Peel Strength Test at Room Temperature (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR))

 N/A 91 lb/in15.9 N/mm

Failure Mode for T-Peel Strength Test at Room Temperature (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR))

 N/A 50 Rubber Failure (R)/Fiber Tear (FT)

Lap Shear Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Cold Rolled Steel to Cold Rolled Steel)

 N/A 1590 psi11.0 MPa

Failure Mode for Lap Shear Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Cold Rolled Steel to Cold Rolled Steel)

 N/A Cohesive Failure (C)

Lap Shear Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Aluminum to Aluminum)

 N/A 1495 psi10.3 MPa

Failure Mode for Lap Shear Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Aluminum to Aluminum)

 N/A Cohesive Failure (C)

Failure Mode for Lap Shear Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC))

N/A 15 Stock Break (SB) /Adhesive Failure (A)

45 Degree (º) Peel Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Natural Rubber to Cold Rolled Steel)

 N/A 30 lb/in5.3 N/mm

Failure Mode for 45 Degree (º) Peel Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Natural Rubber to Cold Rolled Steel)

 N/A 20 Rubber Failure (R)/Adhesive Failure (A)

T-Peel Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR))

 N/A 11 lb/in1.9 N/mm

Failure Mode for T-Peel Strength Test at Hot Strength, 180 Degree Fahrenheit (ºF) (82 Degree Celsius (ºC)) Temperature (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR))

 N/A Cohesive Failure (C)

Lap Shear Strength Test after 7 Days in Hydrogen Dioxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Cold Rolled Steel to Cold Rolled Steel, Test after 24 Hours (h))

 N/A 2300 psi15.9 MPa

Failure Mode for Lap Shear Strength Test after 7 Days in Hydrogen Dioxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Cold Rolled Steel to Cold Rolled Steel, Test after 24 Hours (h))

 N/A Cohesive Failure (C)

Lap Shear Strength Test after 7 Days in Hydrogen Dioxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Aluminum to Aluminum, Test after 24 Hours (h))

 N/A 1540 psi10.6 MPa

Failure Mode for Lap Shear Strength Test after 7 Days in Hydrogen Dioxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Aluminum to Aluminum, Test after 24 Hours (h))

 N/A Adhesive Failure (A)

Lap Shear Strength Test after 7 Days in Hydrogen Oxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC), Test after 24 Hours (h))

 N/A 600 psi4.1 MPa

Failure Mode for Lap Shear Strength Test after 7 Days in Hydrogen Oxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC), Test after 24 Hours (h))

 N/A Fiber Tear (FT)

45 Degree (º) Peel Strength Test after 7 Days in Hydrogen Dioxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Natural Rubber to Cold Rolled Steel, Test after 24 Hours (h))

 N/A 52 psi9.1 MPa

Failure Mode for 45 Degree (º) Peel Strength Test after 7 Days in Hydrogen Dioxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Natural Rubber to Cold Rolled Steel, Test after 24 Hours (h))

 N/A Rubber Failure (R)

T-Peel Strength Test after 7 Days in Hydrogen Oxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR), Test after 24 Hours (h))

 N/A 100 lb/in17.5 N/mm

Failure Mode for T-Peel Strength Test after 7 Days in Hydrogen Oxide H2O at 130 Degree Fahrenheit (ºF) (54 Degree Celsius (ºC)) Temperature (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR), Test after 24 Hours (h))

 N/A 20 Stock Break (SB)/50 Rubber Failure (R) /Cohesive Failure (C)

Lap Shear Strength Test after 14 Days Salt Spray Exposure (Cold Rolled Steel to Cold Rolled Steel, Test Immediately)

 N/A 2260 lb/in15.6 N/mm

Failure Mode for Lap Shear Strength Test after 14 Days Salt Spray Exposure (Cold Rolled Steel to Cold Rolled Steel, Test Immediately)

 N/A Cohesive Failure (C)

Lap Shear Strength Test after 14 Days Salt Spray Exposure (Aluminum to Aluminum, Test Immediately)

 N/A 1247 psi8.6 MPa

Failure Mode for Lap Shear Strength Test after 14 Days Salt Spray Exposure (Aluminum to Aluminum, Test Immediately)

 N/A Adhesive Failure (A)

Lap Shear Strength Test after 14 Days Salt Spray Exposure (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC), Test Immediately)

 N/A 710 psi4.9 MPa

Failure Mode for Lap Shear Strength Test after 14 Days Salt Spray Exposure (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC), Test Immediately)

 N/A Fiber Tear (FT)

45 Degree (º) Peel Strength Test after 14 Days Salt Spray Exposure (Natural Rubber to Cold Rolled Steel, Test Immediately)

 N/A 50 lb/in8.8 N/mm

Failure Mode for 45 Degree (º) Peel Strength Test after 14 Days Salt Spray Exposure (Natural Rubber to Cold Rolled Steel, Test Immediately)

 N/A 80 Rubber Failure (R)/Cohesive Failure (C)/Adhesive Failure (A)

T-Peel Strength Test after 14 Days Salt Spray Exposure (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR), Test Immediately)

 N/A 107 lb/in18.7 N/mm

Failure Mode for T-Peel Strength Test after 14 Days Salt Spray Exposure (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR), Test Immediately)

 N/A 70 Stock Break (SB)/Rubber Failure (R)

Lap Shear Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Cold Rolled Steel to Cold Rolled Steel, Test Immediately)

 N/A 2270 psi15.7 MPa

Failure Mode for Lap Shear Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Cold Rolled Steel to Cold Rolled Steel, Test Immediately)

 N/A Cohesive Failure (C)

Lap Shear Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Aluminum to Aluminum, Test Immediately)

 N/A 1920 psi13.2 MPa

Failure Mode for Lap Shear Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Aluminum to Aluminum, Test Immediately)

 N/A 50 Cohesive Failure (C)/Adhesive Failure (A)

Lap Shear Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC), Test Immediately)

 N/A 635 psi4.4 MPa

Failure Mode for Lap Shear Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC), Test Immediately)

 N/A 98 Fiber Tear (FT)/Adhesive Failure (A)

45 Degree (º) Peel Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Natural Rubber to Cold Rolled Steel), Test Immediately)

 N/A 58 lb/in10.2 N/mm

Failure Mode for 45 Degree (º) Peel Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38 Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Natural Rubber to Cold Rolled Steel), Test Immediately)

 N/A Rubber Failure (R)

T-Peel Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR), Test Immediately)

 N/A 98 lb/in17.2 N/mm

Failure Mode for T-Peel Strength Test after 14 Days at 100 Degree Fahrenheit (ºF) (38Degree Celsius (ºC)) Temperature, 100% Relative Humidity (RH) (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR), Test Immediately)

 N/A 33 Stock Break (SB)/Rubber Failure (R)

Lap Shear Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) Temperature (Cold Rolled Steel to Cold Rolled Steel)

 N/A 2025 psi14.0 MPa

Failure Mode for Lap Shear Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) Temperature (Cold Rolled Steel to Cold Rolled Steel)

 N/A Adhesive Failure (A)

Lap Shear Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) Temperature (Aluminum to Aluminum)

 N/A 1690 psi11.7 MPa

Failure Mode for Lap Shear Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) Temperature (Aluminum to Aluminum)

 N/A Adhesive Failure (A)

Lap Shear Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC))

 N/A 731 psi5.0 MPa

Failure Mode for Lap Shear Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) (Sheet Molded Compound (SMC) to Sheet Molded Compound (SMC))

 N/A Fiber Tear (FT)

45 Degree (º) Peel Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) Temperature (Natural Rubber to Cold Rolled Steel)

 N/A 64 lb/in11.2 N/mm

Failure Mode for 45 Degree (º) Peel Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) Temperature (Natural Rubber to Cold Rolled Steel)

 N/A Rubber Failure (R)

T-Peel Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR))

 N/A 89 lb/in15.6 N/mm

Failure Mode for T-Peel Strength Test at -30 Degree Fahrenheit (ºF) (-34 Degree Celsius (ºC)) (Styrene Butadiene Rubber (SBR) to Styrene Butadiene Rubber (SBR))

 N/A 25 Rubber Failure (R)/Cohesive Failure (C)

Substrate Material

 N/A Cold Rolled Steel and Alumimum Natural Rubber Sheet Molded Compound (SMC) Styrene Butadiene Rubber (SBR)

Surface Treatment for Cold Rolled Steel and Aluminum

 N/A Grit Blast MEK Wipe

Surface Treatment for Sheet Molded Compound (SMC)

 N/A 320-Grit Sandpaper Dry Rag Wipe

Surface Treatment for Styrene Butadiene Rubber (SBR)

 N/A Primed with LORD® 7701 Surface Treatment

Surface Treatment for Natural Rubber

 N/A Primed with LORD® 7701 Surface Treatment

Bonded Parameters

 N/A 45 Degree Peels Metal Lap Shears SMC Lap Shears T-Peels

Bond Area for Metal Lap Shears

 N/A 1.0 x 0.5 in

Bond Area for Sheet Molded Compound (SMC) Lap Shears

 N/A 1.0 x 1.0 in

Bond Area for T-Peel

 N/A 1.0 x 3.0 in

Bond Area for 45 Degree (º) Peels

 N/A 1.0 x 1.0 in

Film Thickness for Metal Lap Shears

 N/A 0.010 in

Film Thickness for Sheet Molded Compound (SMC) Lap Shears

 N/A 0.030 in

Film Thickness for 45 Degree (º) Peels

 N/A 0.020 in

Cure Time at Room Temperature (RT) for Metal Lap Shears

 N/A 72 hour

Cure Time at Room Temperature (RT) for Sheet Molded Compound (SMC) Lap Shears

 N/A 72 hour

Cure Time at Room Temperature (RT) for 45 Degree (º) Peels

 N/A 72 hour

Mix Ratio By Weight for Metal Lap Shears

 N/A 1:1

Mix Ratio By Weight for Sheet Molded Compound (SMC) Lap Shears

 N/A 1:1

Mix Ratio By Weight for T-Peels

 N/A 1:1

Mix Ratio By Weight for 45 Degree (º) Peels

 N/A 1:1

Shelf Life/Storage

Shelf Life/Storage

 N/A Shelf life is two years from date of manufacture when stored at 40-80 ºF (4-27 ºC) in original, unopened container

Features

Durable

 N/A Provides load bearing properties equal to or greater than the materials being bonded; provides impact resistance down to -40 ºF (-40 ºC) and extreme durability through superior inhibition of crack propagation.

Environmentally Friendly

 N/A Contains no solvent, nonflammable and virtually odorless.

Environmentally Resistant

 N/A Resists humidity, sunlight, salt spray and temperature extremes.

High Temperature Resistant

 N/A Resists postbakes up to 400 ºF (204 ºC).

Chemically Resistant

 N/A Solvent resistant when cured, anti-corrosion processes including phosphatizing and ELPO (e-coat) coatings do not affect the adhesive or its bond strength. Continuous immersion in solvents is not recommended.

Applications

Surface Preparation

 N/A Remove soil, grease, oil, fingerprints, dust, mold release agents, rust and other contaminants from the surfaces to be bonded by solvent degreasing or alkaline cleaning.

On metal surfaces which are free of oxidation, use an isopropyl alcohol wipe. If necessary, use an abrasive material to remove tarnish. Always follow abrasion by a second cleaning to ensure removal of loose particles.

When bonding cured rubber, allow LORD® 7701 adhesion enhancer/surface modifier to flash off before applying LORD® 320/322 adhesive. Prime glass and ceramic surfaces with LORD® AP-134 adhesion enhancer/surface modifier to promote adhesion.

Handle prepared surfaces carefully to avoid contamination. Assemble as soon as possible.

Mixing

 N/A Thoroughly mix the proper amount of resin and hardener until uniform in color and consistency. Be careful not to whip excessive air into the adhesive system. Handheld cartridges will automatically dispense the correct volumetric ratio of each component.

Heat buildup due to an exothermic reaction between the two components will shorten the working time of the adhesive. Mixing smaller quantities will minimize heat buildup. Do not use any adhesive that has begun to cure.

Applying

 N/A Apply the mixed adhesive to bond surfaces using automatic meter/mix/dispense equipment or any convenient tool such as a stiff brush, spatula or trowel. Handheld cartridges or a disposable paper cone can be used to apply the adhesive in a continuous bead. For general use, a film thickness of approximately 0.02- 0.03 inch (0.51-0.76 mm) is recommended. To control bondline thickness, a small amount of solid glass beads can be added into the mixed adhesive.

Join the parts in such a way as to avoid entrapped air. Apply only enough pressure to ensure good wetting of the adhesive on both surfaces. Squeezing a little adhesive out at the edges is usually a sign of proper assembly. It is not necessary to clamp the assembly unless movement during adhesive cure is likely.

Maximum adhesion will occur only with parts which mate well without the need for excessive clamping pressure during cure. Excessive clamping may squeeze too much adhesive from the bond area which can result in a poor bond.

Curing

 N/A LORD® 320/322 adhesive will cure to full strength in 24-48 hours, provided that the adhesive, substrates and ambient temperature are 65ºF (18ºC) or higher.

Higher temperatures will provide faster cure times; however, the bondline temperature should not exceed 325 ºF (162 ºC). When heated at 180 ºF(82 ºC), full cure strength can be obtained in 45-60 minutes. Elevated temperature cure produces the highest bond strengths and impact resistance. Firm recommendations of cure times and temperatures depend on material composition and heating methods.

Once the adhesive has cured, it can be filed, sanded, machined or otherwise handled in the same way as a light metal. Paint, lacquers, enamels and other coatings can be applied to cured adhesive.

Cleanup

 N/A Clean excess adhesive on the bonded assembly, as well as the equipment, prior to the adhesive cure with hot water and detergent or an organic solvent such as ketones. Once adhesive has cured, heat the adhesive to 400 ºF (204 ºC) or above to soften the cured adhesive. This allows the parts to be separated and the adhesive to be more easily removed. Some success may be achieved with commercial epoxy strippers.

Additional Information

Additional Information

 N/A Values stated in this technical data sheet represent typical values as not all tests are run on each lot of material produced.

Information provided herein is based upon tests believed to be reliable. In as much as LORD® Corporation has no control over the manner in which others may use this information, it does not guarantee the results to be obtained. In addition, LORD® Corporation does not guarantee the performance of the product or the results obtained from the use of the product or this information where the product has been repackaged by any third party, including but not limited to any product end-user. Nor does the company make any express or implied warranty of merchantability or fitness for a particular purpose concerning the effects or results of such use.

LORD® and "Ask Us How™" are trademarks of LORD® Corporation or one of its subsidiaries.

LORD® provides valuable expertise in adhesives and coatings, vibration and motion control, and magnetically responsive technologies. Our people work in collaboration with our customers to help them increase the value of their products. Innovative and responsive in an ever-changing marketplace, we are focused on providing solutions for our customers worldwide. Ask Us How™.
  • 1 Brookfield HBF, , Helipath, 5 rpm