3M 2214 Hi-Temp Original Gray Datasheet 3M 2214 Hi-Temp Original Gray

CONTACT REP
Information provided by Gluespec

  • Description for 3M 2214 Hi-Temp Original Gray

    Outstanding performance at elevated temperatures • Excellent sag control

    *See Terms of Use Below

    Chemical Resistance Ethyl Gasoline, Chemical Resistance: Fluid Resistance: Tap Water
    Application Type Bond
    1 Part or 2 Part 1-Part
    Material Form Paste
    Substrate Aluminum, Fiber Glass, Metal, Plastic, Polyester, Rubber, Cold rolled Steel, Phenolics, Etched Aluminum, Glass, Steel
    Manufacturer 3M
    Chemistry Epoxy, Epoxy: Modified Epoxy
    Cure Method Heat
    Cure Temperature (°C) 121, 149, 177
    Cure Time (min) 40, 10, 5.00
    Viscosity (cPs) >1,000,000
    Color Gray
    Arc Resistance (sec) Arc
    Aging Resistance Aging resistance
    High Temperature Resistance (°C) 177, Excellent
    Low Temperature Resistance (°C) -55
    Volume Resistivity (O) 9.4e14 (ohms/cm)
    Density (g/cm³) 12 (weight (lbs/gal))

  • Technical Data for 3M 2214 Hi-Temp Original Gray

    *See Terms of Use Below

    Overview
    • Chemical Resistance
      • Chemical Resistance : Fluid Resistance : Water Resistance - Tap Water
      • Chemical Resistance - Ethyl Gasoline
    • Application Type
    • 1 Part or 2 Part
      • 1-Part
    • Material Form
      • Paste
    • Substrate
    • Chemistry
    • Cure Method
      • Heat
    • Color
      • Gray
    Specifications
    Cure Specs
    Cure Temperature (°C) 121, 149, 177
    Cure Time (min) 40, 10, 5.00
    Viscosity (cPs) >1,000,000 Test Method
    Thixotropic Thixotropic
    Bond Strength
    Structural/Load-Bearing Structural
    Peel Strength (piw) 2, 5 Test Method
    Shear Strength (psi) 2,000, 2,000, 3,000, 2,500, 2,500, 900, 1,650, 2,400, 2,000, 2,000, 2,000, 500 Test Method
    Tensile Strength (psi) 8,000
    Material Resistance
    Arc Resistance (sec) Arc
    Aging Resistance Aging resistance
    Environmental Resistance Environmental resistance
    High Temperature Resistance (°C) 177, Excellent
    Low Temperature Resistance (°C) -55
    Moisture/Humidity Resistance Moisture/humidity resistance
    Conductivity
    Dissipation Factor 0.02100, 0.02300, 0.02500, 0.02500 Test Method
    Filler Aluminum
    Dielectric Strength (V/mil) 347 Test Method
    Dielectric Constant 6.20, 7.60, 7.80, 8.00 Test Method
    Thermal Conductivity (W/m°K) 0.33
    Surface Resistivity (O) 1.1e17 (ohms/sq.) Test Method
    Volume Resistivity (O) 9.4e14 (ohms/cm) Test Method
    Hardness
    Shore D Hardness 88 Test Method
    Elongation (%) 1 Test Method
    Modulus (psi) 800,000 Test Method
    Other Properties
    Coefficient of Thermal Expansion (CTE) 48e-6 (in./ in/°C) Test Method
    % Solids (%) 100
    Density (g/cm³) 12 (weight (lbs/gal))
    Business Information
    Shelf Life Details Store products at 39°F (4°C) or below for maximum storage life. Higher temperatures reduce normal storage life. Rotate stock on a “first-in-first-out” basis. CAUTION: Products are heat sensitive. Storage above 130°F (54°C) may cause an exothermic reaction resulting in evolution of excessive heat, noxious fumes, and possibly fire.;All of these products have a shelf life of 8 months when stored in their unopened containers @ 39°F (4°C) or below.
    Shelf Life Temperature (°F) <39
    Shelf Life (mon) 8

  • Best Practices for 3M 2214 Hi-Temp Original Gray

    *See Terms of Use Below

    1. Surface Preparation

      For high strength structural bonds, paint, oxide films, oils, dust, mold release agents and all other surface contaminants must be completely removed. However, the amount of surface preparation directly depends on the substrates, the required bond strength, environmental aging resistance, and requirements determined by the user in light of the user’s particular purpose and method of application.

      See vendor technical data sheet for more information.

    2. Application

      Warm products to room temperature before opening containers to restore proper application consistency and to prevent moisture condensation on adhesive surface. Containers may be stored at room temperature for 1-2 days to thaw. Do not warm at temperatures above 80°F (27°C).

      For maximum bond strength, apply product evenly to both surfaces to be joined.

      Join the adhesive coated surfaces and heat cure using the following bondline temperature and time for the specific product being used.

      Keep parts from moving during cure as contact pressure is necessary.

    3. Clean-Up

      Cleanup can be accomplished with solvent such as 3M™ Scotch-Grip™ Solvent No. 3 or Methyl Ethyl Ketone.*

      *Note: Prior to use of these solvents, extinguish or eliminate any ignition sources and read and follow supplier’s environmental, health, and safety recommendations listed on the MSDS and product label.

  • Comparable Materials for 3M 2214 Hi-Temp Original Gray

    *See Terms of Use Below

    Spec Engine® Results

  Download Technical Data Sheet   Save This Material   Compare View Saved Items

Popular Articles

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

Read Article

Electrically Conductive Adhesives

Read Article

Testing the effectiveness of surface treatments

Read Article

Epoxy Adhesives for Medical Devices

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

Featured Ads

Top Catalog Pages for 3M 2214 Hi-Temp Original Gray

All 3M Materials
View Now
Heat Cure Epoxy Adhesives
View Now

Gluespec Poll

Who do you read or follow for engineering news and entertainment?
Viscosity Test Methods
Viscosity Test Method
>1,000,000 cPs Brookfield
Peel Strength Test Methods
Peel Strength Type Substrate Test Temperature Test Method
2 piw T-peel strength Aluminum 24°C T-Peel bonds were measured on 1" wide specimens cut from two FPL etched 8" x 8" x .032" 2024 T3 clad aluminum panels bonded together. The separation note of the testing jaws was 20"/minute. Tests similar to ASTM D-1876. (All data in lbs./in. of width.)
5 piw T-peel strength Steel 24°C T-Peel bonds were measured on two 1" wide x 8" long specimens bonded together. These bonds were made on MEK wiped .035" steel. After bonding they were then pulled apart in 180° Peel at a jaw separation rate of 20"/in. rate. Tests similar to ASTM D-1876. (All data in lbs./in. of width.)
Shear Strength Test Methods
Shear Strength Type Cure Time Cure Temperature Substrate Test Temperature Test Method
2,000 psi Overlap shear strength 40 min 121°C Aluminum -53°C The data was developed using a cure cycle of 40 minutes @ 250°F (121°C) under 25 psi pressure except Scotch-Weld adhesive 2214 Hi-Temp New Formula which was 60 minutes at 250°F (121°C)., Overlap shear strength was measured on FPL etched 1" wide by 1/2" overlap specimens. The bonds were made from 2 panels of 4" x 7" x .063", 2024 T3 clad aluminum bonded together and cut into 1" wide specimens. The separation rate of the testing jaws was .1"/minute. Tests similar to ASTM D-1002.
2,000 psi Overlap shear strength 40 min 121°C Aluminum 24°C The data was developed using a cure cycle of 40 minutes @ 250°F (121°C) under 25 psi pressure except Scotch-Weld adhesive 2214 Hi-Temp New Formula which was 60 minutes at 250°F (121°C)., Overlap shear strength was measured on FPL etched 1" wide by 1/2" overlap specimens. The bonds were made from 2 panels of 4" x 7" x .063", 2024 T3 clad aluminum bonded together and cut into 1" wide specimens. The separation rate of the testing jaws was .1"/minute. Tests similar to ASTM D-1002.
3,000 psi Overlap shear strength 40 min 121°C Aluminum 82°C The data was developed using a cure cycle of 40 minutes @ 250°F (121°C) under 25 psi pressure except Scotch-Weld adhesive 2214 Hi-Temp New Formula which was 60 minutes at 250°F (121°C)., Overlap shear strength was measured on FPL etched 1" wide by 1/2" overlap specimens. The bonds were made from 2 panels of 4" x 7" x .063", 2024 T3 clad aluminum bonded together and cut into 1" wide specimens. The separation rate of the testing jaws was .1"/minute. Tests similar to ASTM D-1002.
2,500 psi Overlap shear strength 40 min 121°C Aluminum 121°C The data was developed using a cure cycle of 40 minutes @ 250°F (121°C) under 25 psi pressure except Scotch-Weld adhesive 2214 Hi-Temp New Formula which was 60 minutes at 250°F (121°C)., Overlap shear strength was measured on FPL etched 1" wide by 1/2" overlap specimens. The bonds were made from 2 panels of 4" x 7" x .063", 2024 T3 clad aluminum bonded together and cut into 1" wide specimens. The separation rate of the testing jaws was .1"/minute. Tests similar to ASTM D-1002.
2,500 psi Overlap shear strength 40 min 121°C Aluminum 149°C The data was developed using a cure cycle of 40 minutes @ 250°F (121°C) under 25 psi pressure except Scotch-Weld adhesive 2214 Hi-Temp New Formula which was 60 minutes at 250°F (121°C)., Overlap shear strength was measured on FPL etched 1" wide by 1/2" overlap specimens. The bonds were made from 2 panels of 4" x 7" x .063", 2024 T3 clad aluminum bonded together and cut into 1" wide specimens. The separation rate of the testing jaws was .1"/minute. Tests similar to ASTM D-1002.
900 psi Overlap shear strength 40 min 121°C Aluminum 177°C The data was developed using a cure cycle of 40 minutes @ 250°F (121°C) under 25 psi pressure except Scotch-Weld adhesive 2214 Hi-Temp New Formula which was 60 minutes at 250°F (121°C)., Overlap shear strength was measured on FPL etched 1" wide by 1/2" overlap specimens. The bonds were made from 2 panels of 4" x 7" x .063", 2024 T3 clad aluminum bonded together and cut into 1" wide specimens. The separation rate of the testing jaws was .1"/minute. Tests similar to ASTM D-1002.
1,650 psi Overlap shear strength Steel -53°C Overlap shear strength was measured on 1" wide by 1/2" overlap specimens. These bonds were made on 1" x 4" x .035" thick cold rolled steel which was MEK solvent wiped prior to bonding. The separation rate of the testing jaws was .1"/min. Tests similar to ASTM D-1002.
2,400 psi Overlap shear strength Steel 24°C Overlap shear strength was measured on 1" wide by 1/2" overlap specimens. These bonds were made on 1" x 4" x .035" thick cold rolled steel which was MEK solvent wiped prior to bonding. The separation rate of the testing jaws was .1"/min. Tests similar to ASTM D-1002.
2,000 psi Overlap shear strength Steel 82°C Overlap shear strength was measured on 1" wide by 1/2" overlap specimens. These bonds were made on 1" x 4" x .035" thick cold rolled steel which was MEK solvent wiped prior to bonding. The separation rate of the testing jaws was .1"/min. Tests similar to ASTM D-1002.
2,000 psi Overlap shear strength Steel 121°C Overlap shear strength was measured on 1" wide by 1/2" overlap specimens. These bonds were made on 1" x 4" x .035" thick cold rolled steel which was MEK solvent wiped prior to bonding. The separation rate of the testing jaws was .1"/min. Tests similar to ASTM D-1002.
2,000 psi Overlap shear strength Steel 149°C Overlap shear strength was measured on 1" wide by 1/2" overlap specimens. These bonds were made on 1" x 4" x .035" thick cold rolled steel which was MEK solvent wiped prior to bonding. The separation rate of the testing jaws was .1"/min. Tests similar to ASTM D-1002.
500 psi Overlap shear strength Steel 177°C Overlap shear strength was measured on 1" wide by 1/2" overlap specimens. These bonds were made on 1" x 4" x .035" thick cold rolled steel which was MEK solvent wiped prior to bonding. The separation rate of the testing jaws was .1"/min. Tests similar to ASTM D-1002.
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
6.20 23°C ASTM-D-150
7.60 60°C ASTM-D-150
7.80 90°C ASTM-D-150
8.00 104°C ASTM-D-150
Dielectric Strength Test Methods
Dielectric Strength Test Method
347 V/mil ASTM-D-149
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.02100 23°C ASTM-D-150
0.02300 60°C ASTM-D-150
0.02500 90°C ASTM-D-150
0.02500 104°C ASTM-D-150
Surface Resistivity Test Methods
Surface Resistivity Temperature Test Method
1.1e17 (ohms/sq.) 23°C ASTM-D-257, 500 Volts-DC
Volume Resistivity Test Methods
Volume Resistivity Temp (°C) Test Method
9.4e14 (ohms/cm) 23°C ASTM-D-257, 500 Volts-DC
Elongation Test Methods
Elongation Test Method
1 % Approx.
Modulus Test Methods
Modulus Test Method
800,000 psi Elasticity, Approx.
Shore D Hardness Test Methods
Shore D Hardness Shore Hardness Test Method
88 Approx.
Coefficient of Thermal Expansion (CTE) Test Methods
Coefficient of Thermal Expansion (CTE) CTE Temperature (°C)
48e-6 (in./ in/°C) 0 to 80°C