• Description for 3M DP100Plus

    A fast setting, two-part, 1:1 mix ratio mercaptan-cured epoxy adhesive. It is unique among fast setting mercaptan cure epoxies in that it combines high shear strength with good peel performance properties.

    *See Terms of Use Below

    Application Type Bond
    1 Part or 2 Part 2 Part
    Material Form Liquid
    Substrate Aluminum, Etched Aluminum, Plastic: Acrylic, Fiber Glass, ABS, Polycarbonate, Polypropylene, PVC, Rubber, Cold rolled Steel, Fir, Sanded Aluminum, Glass, Plastic, Steel, Wood
    Manufacturer 3M
    Chemistry Epoxy
    Cure Method Base/Accelerator
    Cure Temperature (°C) 23
    Cure Time (min) 2,880
    Viscosity (cPs) 8,500
    Color Clear
    Chemical Resistance 1, 1, 1-Trichlorethane, Acetone, Freon TF, Freon TMC, Isopropyl Alcohol, RMA Flux
    Relative Solvent Resistance Chemical Resistance: Solvent
    High Temperature Resistance (°C) 82, Thermal Shock Resistance
    Low Temperature Resistance (°C) -55
  • Technical Data

    Overview
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    Specifications
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  • Best Practices

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Cure Temperature Test Methods
Cure Temperature Cure Time Test Method
23°C Cured, 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.
Cure Time Test Methods
Cure Time Test Method
2,880 min Cured, 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.
Fixture or Handling Strength Time Test Methods
Fixture or Handling Strength Time Fixture-Handling Strength Test Method Fixture-Handling Strength Time Temperature
20 min Cured, handling strength determined per test method C-3179. Time to handling strength taken to be that required to achieve a 50 psi overlap shear OLS strength using aluminum substrates. 23°C
Tack Free Time Test Methods
Tack Free Time Test Method
9 to 10 min Cured, tack-free time determined per test method C-3173. Involves dispensing 0.5 gram amount of adhesive onto substrate and testing periodically for no adhesive transfer to metal spatula
Viscosity Test Methods
Viscosity Test Method Temperature
8,500 cPs Brookfield RVF, #7 spindle, 20 rpm and 80°F 27°C. 23°C
Work / Pot Time Test Methods
Work / Pot Time Test Method Temperature
4.00 min Uncured, worklife determined using 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.;2 (gram) 23°C
3.00 min Uncured, worklife determined using test method C-3180. Procedure involves periodically measuring a 20 gram mixed mass for self leveling and wetting properties. This time will also approximate the usable worklife in an 3M™ EPX™ Applicator mixing nozzle.Worklife determined using 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;20 (gram) 23°C
3.00 to 4.00 min Cured, worklife determined using 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
Shear Strength Test Methods
Shear Strength Type Cure Time Cure Temperature Substrate Test Time Test Temperature Test Method
High
3,500 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Etched Aluminum 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
1,800 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Sanded Aluminum (60 grit) 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
1,700 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Cold Rolled Steel 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
700 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Wood, Fir 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
250 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Glass, Borosilicate 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
300 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Glass, +3M™ Scotch-Weld™ Primer EC3901 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
600 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Polycarbonate 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
300 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Acrylic 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
1,500 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Fiberglass 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
280 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] ABS 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
450 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] PVC 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
80 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] Polypropylene 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
600 psi Overlap shear strength Etched Aluminum 3,600 sec 25°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
900 psi Overlap shear strength Etched Aluminum 21,600 sec 25°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
1,100 psi Overlap shear strength Etched Aluminum 86,400 sec 25°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
2,800 psi Overlap shear strength Etched Aluminum 604,800 sec 25°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
3,400 psi Overlap shear strength Etched Aluminum 2,592,000 sec 25°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
3,000 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] -55°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
3,500 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] 21°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
750 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] 49°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
400 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] 66°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
200 psi Overlap shear strength 24 hours + 2 hrs 24 hours @ room temperature (RT) + 2 hrs @ 160°F [71°C] 82°C 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 where bond noted. (Test per ASTM D 1002-72.), The separation rate of the testing jaws was 0.1 in. per minute for metals, 2 in. per minute for plastics and 20 in. per minute for rubbers . The thickness of the substrates were: Steel, 0.060 in., other metals, 0.05-0.064 in., rubber, 0.125 in., plastics, 0.125 in.
Tensile Strength Test Methods
Tensile Strength Cure Time Cure Temperature Test Method
1,850 psi 2 hrs. RT + 2 hrs. 160°F (71°C). 2 hrs. RT + 2 hrs. 160°F (71°C). Tensile and Elongation. Used procedure in 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).
Peel Strength Test Methods
Peel Strength Type Cure Time Cure Temperature Test Temperature Test Method
High
2 piw 180° Peel strength 24 hours + 2 hours 24 hours @ room temperature (RT) + 2 hours @ 160°F [71°C] -55°C T-peel strengths were measured on 1 in. wide bonds at 73°F (23°C). The testing jaw separation rate was 20 inches per minute. The substrates were 0.020 in. thick. (Tests per ASTM D 1876-61T.)
13 piw 180° Peel strength 24 hours + 2 hours 24 hours @ room temperature (RT) + 2 hours @ 160°F [71°C] 21°C T-peel strengths were measured on 1 in. wide bonds at 73°F (23°C). The testing jaw separation rate was 20 inches per minute. The substrates were 0.020 in. thick. (Tests per ASTM D 1876-61T.)
15 piw 180° Peel strength 24 hours + 2 hours 24 hours @ room temperature (RT) + 2 hours @ 160°F [71°C] 49°C T-peel strengths were measured on 1 in. wide bonds at 73°F (23°C). The testing jaw separation rate was 20 inches per minute. The substrates were 0.020 in. thick. (Tests per ASTM D 1876-61T.)
2 piw 180° Peel strength 24 hours + 2 hours 24 hours @ room temperature (RT) + 2 hours @ 160°F [71°C] 66°C T-peel strengths were measured on 1 in. wide bonds at 73°F (23°C). The testing jaw separation rate was 20 inches per minute. The substrates were 0.020 in. thick. (Tests per ASTM D 1876-61T.)
1 piw 180° Peel strength 24 hours + 2 hours 24 hours @ room temperature (RT) + 2 hours @ 160°F [71°C] 82°C T-peel strengths were measured on 1 in. wide bonds at 73°F (23°C). The testing jaw separation rate was 20 inches per minute. The substrates were 0.020 in. thick. (Tests per ASTM D 1876-61T.)
Chemical Resistance Test Methods
Chemical Resistance Test Method
1, 1, 1-Trichlorethane Solvent resistance was determined using cured (24 hrs RT + 2 hrs 160°F [71°C]) samples (1/2 in. x 4 in. x 1/8 in. thickness) immersed in the test solvent for 1 hour and 1 month. After the allowed period of time, the sample was removed and visually examined for surface attack as compared to the control.
Acetone
Freon TF
Freon TMC
Isopropyl Alcohol
RMA Flux
High Temperature Resistance Test Methods
High Temperature Resistance Test Method
82°C
Thermal Shock Resistance Thermal shock resistance run per test method C-3174. Involves potting a metal washer into a 2 in. x 0.5 in. thick section and cycling this test specimen to colder and colder temperatures.
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
6.60 23°C Cured, dielectric Constant @ 1 KHz @ 23°C (ASTM D 150)
Dielectric Strength Test Methods
Dielectric Strength Test Method
710 V/mil Cured, (ASTM D 149) Sample Thickness Approx. 30 mil.
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.06000 23°C Cured, dissipation Factor @ 1 KHz @ 23°C (ASTM D 150)
Thermal Conductivity Test Methods
Thermal Conductivity Temperature Test Method
0.13 W/m°K 43°C Thermal conductivity determined using ASTM C177 and C-matic Instrument using 2 in. diameter samples., @ 110°F on .250" samples
.32e-3 (Cal./sec. - cm - °C) 43°C Thermal conductivity determined using ASTM C177 and C-matic Instrument using 2 in. diameter samples., @ 110°F on .250" samples
0.13 W/m°K 43°C Thermal conductivity determined using ASTM C177 and C-matic Instrument using 2 in. diameter samples., @ 110°F on .250" samples
Volume Resistivity Test Methods
Volume Resistivity Test Method
6.7e11 (ohm/cm) ASTM D 257
Elongation Test Methods
Elongation Test Method
75 % Cured Cured, Tensile and Elongation. Used procedure in 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).
Shore D Hardness Test Methods
Shore D Hardness Shore Hardness Test Method
83 Cured, (ASTM D 2240)
65 to 70 Cured, (ASTM D 2240)
Coefficient of Thermal Expansion (CTE) Test Methods
Coefficient of Thermal Expansion (CTE) CTE Temperature (°C) CTE Test Method
93 (unit/unit /°C) 5 to 20°C Below Tg;TCE determined using TMA Analyzer using a heating rate of 10°C per minute. Second heat values given. by TMA
182 (unit/unit /°C) 40 to 140°C Above Tg;TCE determined using TMA Analyzer using a heating rate of 10°C per minute. Second heat values given. by TMA
Glass Transition Temp (Tg) Test Methods
Glass Transition Temp (Tg) Glass Transition Temperature (Tg) Test Method
23°C Onset;Glass Transition Temperature (Tg) determined using DSC Analyzer with a heating rate of 20°C per minute. Second heat values given. by DSC
29°C Mid-Point;Glass Transition Temperature (Tg) determined using DSC Analyzer with a heating rate of 20°C per minute. Second heat values given. by DSC