3M Scotch-Weld Epoxy Adhesive DP190 Translucent Datasheet 3M Scotch-Weld Epoxy Adhesive DP190 Translucent

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  • Description for 3M Scotch-Weld Epoxy Adhesive DP190 Translucent

    • Two-component • High shear strength • High peel strength • Flexible • Faster curing • Clear • Amber • Flow equipment • Two-part meter/mixing/proportioning/dispensing equipment • Solvent resistance.

    *See Terms of Use Below

    Brand Scotch-weld
    Chemical Resistance Acetone resistance, Chemical Resistance: Solvent resistance, Isopropyl alcohol resistance, Freon TF, Freon TMC, 1, 1, 1-Trichlorethane, RMA Flux
    Application Type Bond
    1 Part or 2 Part 2-Part
    Material Form Liquid
    Substrate Acrylic, Etched aluminum, Glass, Plastics, Polycarbonate, Polypropylene, PVC, Rubber, Cold rolled steel, Wood, Fiberglass, ABS, Sanded aluminum (60 grit), Borosilicate glass, Steel, Fir
    Manufacturer 3M
    Cure Method 2-part cure, Heat cure, Room temperature cure
    Cure Temperature (°C) 20 to 25 RT, 71, 20 to 25 RT, 71, 16, <93, 24
    Cure Time (min) Faster cure, 20,160, 120, 120, 1,440, 240, 10,080 to 20,160
    Color Translucent
    High Temperature Resistance (°C) Thermal shock resistance
    Volume Resistivity (O) 7.5e10 (ohm-cm)
  • Technical Data for 3M Scotch-Weld Epoxy Adhesive DP190 Translucent

    Overview
    • Chemical Resistance
      • Chemical Resistance - 1, 1, 1-Trichlorethane, Acetone resistance, Freon TF, Freon TMC, Isopropyl alcohol resistance, RMA Flux
      • Chemical Resistance : Relative Solvent Resistance - Solvent resistance
    • Application Type
    • 1 Part or 2 Part
      • 2-Part
    • Material Form
      • Liquid
    • Substrate
    • Application Method
      • Dispenser - Two-part meter/mixing/proportioning/dispensing equipment
      • Flow - Flow equipment
    • Cure Method
      • Room Temperature / Air Dry - Room temperature cure
      • Heat - Heat cure
      • 2-Part Cure
    • Color
      • Translucent
    • Brand
      • Scotch-weld
    Specifications
    Cure Specs
    Cure Temperature (°C) 20 to 25 RT, 71, 20 to 25 RT, 71, 16, <93, 24 Test Method
    Cure Time (min) Faster cure, 20,160, 120, 120, 1,440, 240, 10,080 to 20,160 Test Method
    Fixture or Handling Strength Time (min) 360 Test Method
    Tack Free Time (min) 240 Test Method
    Work / Pot Time (min) 90, 80, 60, 80 Test Method
    Mix Ratio 1:1 (by volume), 1.15:1 (by weight)
    Bond Strength
    Peel Strength (piw) High, 3, 20, 3, 2, 1 Test Method
    Shear Strength (psi) High, 1,800, 850, 850, 650, 260, 300, 400, 350, 1,000, 400, 650, 90, 10, 200, 800, 1,200, 1,800, 1,800, 3,500, 1,200, 290, 200, 160 Test Method
    Tensile Strength (psi) 2,750 Test Method
    Material Resistance
    Environmental Resistance Environmental aging
    High Temperature Resistance (°C) Thermal shock resistance
    Conductivity
    Dissipation Factor 0.16000 Test Method
    Dielectric Strength (V/mil) 875 Test Method
    Dielectric Constant 6.20 Test Method
    Thermal Conductivity (W/m°K) .079 (BTU - ft./ft.2 - hr. - °F) Test Method
    Volume Resistivity (O) 7.5e10 (ohm-cm) Test Method
    Hardness
    Shore D Hardness 35 Test Method
    Elongation (%) 120 Test Method
    Flexibility Flexible
    Other Properties
    Glass Transition Temp (Tg) (°C) 10, 27 Test Method
    Outgassing 1 %, 5 % Test Method
    Coefficient of Thermal Expansion (CTE) 8e-6 (unit/unit /°C), 166e-6 (unit/unit /°C) Test Method
    Business Information
    Shelf Life Details Store products at 60-80°F (15-27°C) for maximum shelf life.; These products have a shelf life of 24 months in their unopened original containers from date of manufacture.
    Shelf Life Temperature (°F) 60 to 80
    Shelf Life Type From date of manufacture
    Shelf Life (mon) 24
  • Best Practices for 3M Scotch-Weld Epoxy Adhesive DP190 Translucent

    *See Terms of Use Below

    1. Surface Preparation

      For high strength structural bonds, paints, oxide films, oils, dust, mold release agents and all other surface contaminants must be completely removed. However, the amount of surface preparation necessary directly depends on the required bond strength and the environmental aging resistance desired by the user. For suggested surface preparations on common substrates, see the section on surface preparation.

      The following cleaning methods are suggested for common surfaces: Steel: 1. Wipe free of dust with oil-free solvent such as acetone, isopropyl or alcohol solvents.

      2. Sandblast or abrade using clean fine grit abrasives.

      3. Wipe again with solvent to remove loose particles.

      4. If a primer is used, it should be applied within 4 hours after surface preparation.

      Aluminum: 1. Alkaline Degrease: Oakite 164 solution (9-11 oz./gallon water) at 190°F (87°C) ± 10°F for 10-20 minutes. Rinse immediately in large quantities of cold running water.

      2. Acid Etch: Place panels in the following solution for 10 minutes at 150°F (65°C) ± 5°F.

      3. Rinse: Rinse panels in clear running tap water.

      4. Dry: Air dry 15 minutes

      force dry 10 minutes at 150°F (65°C) ± 10°F.

      5. If primer is to be used, it should be applied within 4 hours after surface preparation.

      Plastics/Rubber: 1. Wipe with isopropyl alcohol.

      2. Abrade using fine grit abrasives.

      3. Wipe with isopropyl alcohol.

      Glass: 1. Solvent wipe surface using acetone or MEK.

      2. Apply a thin coating (0.0001 in. or less) of 3M™ Scotch-Weld™ Metal Primer EC3901 or equivalent to the glass surfaces to be bonded and allow the primer to dry before bonding.

      Note: When using solvents, extinguish all ignition sources, including pilot lights, and follow manufacturer’s precautions and directions for use.

    2. Application

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

      Application to the substrates should be made within 75 minutes. Larger quantities and/or higher temperatures will reduce this working time.

    3. Mixing

      For Duo Pak Cartridges: 3M™ Scotch-Weld™ Epoxy Adhesives DP190 Translucent is supplied in a dual syringe plastic duo-pak cartridge as part of the 3M™ EPX Applicator system. 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. If automatic mixing of Part A and Part B is desired, attach the EPX applicator 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 uniform color is obtained.

      For Bulk Containers: Mix thoroughly by weight or volume in the proportions specified in the typical uncured properties section. Mix approximately 15 seconds after uniform color is obtained.

    4. Curing

      Join the adhesive coated surfaces and allow to cure at 60°F (16°C) or above until completely firm. Heat up to 200°F (93°C) will speed curing. These products will cure in 7 to 14 days @ 75°F (24°C).

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

    5. Clean-Up

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

      When using solvents, extinguish all ignition sources, including pilot lights, and follow manufacturer’s precautions and directions for use.

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Cure Temperature Test Methods
Cure Temperature Cure Time Test Method
20 to 25°C RT Cured
71°C Cured
20 to 25°C RT Cured
71°C Cured
16°C For bulk containers; Cure
<93°C For bulk containers; Heat
24°C For bulk containers; Cure
Cure Time Test Methods
Cure Time Test Method
Faster cure
20,160 min Full cure; The cure time is defined as that time required for the adhesive to achieve a minimum of 80% of the ultimate strength as measured by aluminum-aluminum OLS.;The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
120 min Cured
120 min Cured
1,440 min Cured
240 min Cured
10,080 to 20,160 min For bulk containers; Cure
Fixture or Handling Strength Time Test Methods
Fixture or Handling Strength Time Fixture-Handling Strength Test Method
360 min The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Handling strength determined per 3M test method C-3179. Time to handling strength taken to be that required to achieve a 50 psi OLS strength using aluminum substrates.; Cured
Tack Free Time Test Methods
Tack Free Time Test Method
240 min The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Tack-free time determined per 3M test method C-3173. Involves dispensing 0.5 gram amount of adhesive onto substrate and testing periodically for no adhesive transfer to metal spatula.; Cured
Work / Pot Time Test Methods
Work / Pot Time Test Method Temperature
90 min Worklife
80 min Worklife; 2 gram; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Worklife determined using 3M test method C-3180. Procedure involves periodically measuring a 2 gram mixed mass for self-leveling and wetting properties. This time will also approximate the usable worklife in an 3M™ EPX™ Applicator mixing nozzle.; Uncured 23°C
60 min Worklife; 20 gram; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Worklife determined using 3M test method C-3180. Procedure involves periodically measuring a 2 gram mixed mass for self-leveling and wetting properties. This time will also approximate the usable worklife in an 3M™ EPX™ Applicator mixing nozzle.; Uncured 23°C
80 min Worklife; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Worklife determined using 3M test method C-3180. Procedure involves periodically measuring a 2 gram mixed mass for self-leveling and wetting properties. This time will also approximate the usable worklife in an 3M™ EPX™ Applicator mixing nozzle.; Cured
Peel Strength Test Methods
Peel Strength Test Temperature Test Method
High
3 piw -55°C 180°F Peel strength; Bonds cured 24 hr @ RT + 4 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
20 piw 21°C 180°F Peel strength; Bonds cured 24 hr @ RT + 4 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
3 piw 49°C 180°F Peel strength; Bonds cured 24 hr @ RT + 4 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
2 piw 66°C 180°F Peel strength; Bonds cured 24 hr @ RT + 4 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
1 piw 82°C 180°F Peel strength; Bonds cured 24 hr @ RT + 4 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
Tensile Strength Test Methods
Tensile Strength Test Method
2,750 psi Used procedure in 3M test method C-3094/ATSM D 882. Samples were 2 in. dumbbells with .0125 in. neck and .030 in. sample thickness. Separation rate was 2 inches per minute. Samples cured 2 hrs RT plus 2 hrs/ 160°F (71°C).; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Shear Strength Test Methods
Shear Strength Type Substrate Test Time Test Temperature Test Method
High
1,800 psi Overlap shear strength (OLS) Etched aluminum Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
850 psi Overlap shear strength (OLS) Sanded aluminum (60 grit) Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
850 psi Overlap shear strength (OLS) Cold rolled steel Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
650 psi Overlap shear strength (OLS) Wood, Fir Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
260 psi Overlap shear strength (OLS) Glass, Borosilicate Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
300 psi Overlap shear strength (OLS) Glass, +3M™ Scotch-Weld™ Primer 3901 Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
400 psi Overlap shear strength (OLS) Polycarbonate Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
350 psi Overlap shear strength (OLS) Acrylic Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
1,000 psi Overlap shear strength (OLS) Fiberglass Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
400 psi Overlap shear strength (OLS) ABS Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
650 psi Overlap shear strength (OLS) PVC Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
90 psi Overlap shear strength (OLS) Polypropylene Bonds cured 24 hrs @ RT + 2 hrs 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
10 psi Overlap shear strength (OLS) Etched aluminum 3,600 sec 20 to 25°C RT Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.); The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
200 psi Overlap shear strength (OLS) Etched aluminum 21,600 sec 20 to 25°C RT Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.); The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
800 psi Overlap shear strength (OLS) Etched aluminum 86,400 sec 20 to 25°C RT Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.); The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
1,200 psi Overlap shear strength (OLS) Etched aluminum 604,800 sec 20 to 25°C RT Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.); The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
1,800 psi Overlap shear strength (OLS) Etched aluminum 2,592,000 sec 20 to 25°C RT Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.); The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
1,800 psi Overlap shear strength (OLS) Etched aluminum 7,776,000 sec 20 to 25°C RT Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.); The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
3,500 psi Overlap shear strength (OLS) -55°C Bonds cured 24 hr @ RT + 2 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
1,200 psi Overlap shear strength (OLS) 21°C Bonds cured 24 hr @ RT + 2 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
290 psi Overlap shear strength (OLS) 49°C Bonds cured 24 hr @ RT + 2 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
200 psi Overlap shear strength (OLS) 66°C Bonds cured 24 hr @ RT + 2 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
160 psi Overlap shear strength (OLS) 82°C Bonds cured 24 hr @ RT + 2 hrs @ 160°F [71°C]; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Overlap shear (OLS) 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 bond line was 0.005-0.008 in. All strengths were measured at 70°F (21°C) except were noted. (Test per ASTM D 1002-72.)
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
6.20 23°C @ 1 KHZ; ASTM D 150; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Dielectric Strength Test Methods
Dielectric Strength Test Method
875 V/mil ASTM D 149; Sample Thickness Approx. 30 mil.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.16000 23°C @ 1 KHZ; ASTM D 150; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Thermal Conductivity Test Methods
Thermal Conductivity Temperature Test Method
.079 (BTU - ft./ft.2 - hr. - °F) 43°C .250 in. samples; Thermal conductivity determined using ASTM C177 and C-matic Instrument using 2 in. diameter samples.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Volume Resistivity Test Methods
Volume Resistivity Test Method
7.5e10 (ohm-cm) ASTM D 257; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Elongation Test Methods
Elongation Test Method
120 % The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Used procedure in 3M test method C-3094/ATSM D 882. Samples were 2 in. dumbbells with .0125 in. neck and .030 in. sample thickness. Separation rate was 2 inches per minute. Samples cured 2 hrs RT plus 2 hrs/ 160°F (71°C).; Cured
Shore D Hardness Test Methods
Shore D Hardness Shore Hardness Test Method
35 The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; ASTM D 2240; Cured
Coefficient of Thermal Expansion (CTE) Test Methods
Coefficient of Thermal Expansion (CTE) CTE Temperature (°C) CTE Test Method
8e-6 (unit/unit /°C) 5 to 20°C Below Tg; Thermal coefficient of expansion; TCE determined using TMA Analyzer using a heating rate of 50°F (10°C) per minute. Second heat values given.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
166e-6 (unit/unit /°C) 75 to 140°C Above Tg; Thermal coefficient of expansion; TCE determined using TMA Analyzer using a heating rate of 50°F (10°C) per minute. Second heat values given.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Glass Transition Temp (Tg) Test Methods
Glass Transition Temp (Tg) Glass Transition Temperature (Tg) Test Method
10°C By DCS; Onset; Glass transition temperature (Tg) determined using DSC Analyzer with a heating rate of 68°F (20°C) per minute. Second heat values given.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
27°C By DCS; Mid-Point; Glass transition temperature (Tg) determined using DSC Analyzer with a heating rate of 68°F (20°C) per minute. Second heat values given.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.; Cured
Outgassing Test Methods
Outgassing Temperature (°C) Test Method
1 % 199°C Cured; Weight loss by thermal gravimetric analysis (TGA); Weight loss by TGA reported as that temperature at which 5% weight loss occurs by TGA in air at 5°C rise per minute per ASTM 1131-86.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.
5 % 312°C Cured; Weight loss by thermal gravimetric analysis (TGA); Weight loss by TGA reported as that temperature at which 5% weight loss occurs by TGA in air at 5°C rise per minute per ASTM 1131-86.; The following technical information and data should be considered representative or typical only and should not be used for specification purposes.