Elantas (Altana) Conathane EN-9 OZR Datasheet Elantas (Altana) Conathane EN-9 OZR

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  • Description for Elantas (Altana) Conathane EN-9 OZR

    A two-component, ozone resistant, Non-MbOCA based, high strength liquid polyurethane potting and molding system.

    *See Terms of Use Below

    Brand Conathane, Cytec
    Application Type Molding, Potting, Encapsulate
    1 Part or 2 Part 2-Part
    Material Form Liquid
    Industry Connector, Cable, Military, Harness breakouts, Wire wound devices, Watertight electrical connectors
    Manufacturer Elantas (Altana)
    Chemistry Non-MbOCA-based, Polyurethane
    Cure Method 2-Part Cure
    Demolding Time (min) 300, 240, 120
    Cure Temperature (°C) 60, 80, 100
    Cure Time (min) 1,440, 960, 480
    Viscosity (cPs) Low, 8,000, 8,800, 12,400, 26,800, 70,000, 208,000, 250,000
    Arc Resistance (sec) Arc Resistance
    Fungus Resistance Fungus resistance
    Ozone Resistance Excellent ozone resistance
    High Temperature Resistance (°C) 130, 97, Thermal shock resistance
    Low Temperature Resistance (°C) -70
    Volume Resistivity (O) 3.42e15 (ohms/cm), 3.22e11 (ohms/cm), 3.15e11 (ohms/cm)
    Key Specifications Mil-Spec (United States Military Standard): MIL-M-24041

  • Technical Data for Elantas (Altana) Conathane EN-9 OZR

    *See Terms of Use Below

    Overview
    • Application Type
    • 1 Part or 2 Part
      • 2-Part
    • Material Form
      • Liquid
    • Industry
      • Military
      • Electronics - Watertight electrical connectors, Wire wound devices, Harness breakouts
      • Connectors - Connector
      • Cable
      • Other - Commercial, Strain sensitive components
    • Chemistry
    • Application Method
      • Spray
      • Dip
      • Other - Meter-mix Bench Potting / Casting, Meter-mix Vacuum Potting / Casting, Hand-mix Bench Potting / Casting
    • Cure Method
      • 2-Part Cure
    • Key Specifications
      • Mil-Spec (United States Military Standard) : 24041 - MIL-M-24041
    • Brand
      • Conathane
      • Cytec
    Specifications
    Cure Specs
    Demolding Time (min) 300, 240, 120
    Cure Temperature (°C) 60, 80, 100
    Cure Time (min) 1,440, 960, 480
    Viscosity (cPs) Low, 8,000, 8,800, 12,400, 26,800, 70,000, 208,000, 250,000 Test Method
    Set Time (min) 42, 60 Test Method
    Linear Shrinkage (%) 1.00 Test Method
    Work / Pot Time (min) 60
    Mix Ratio 100:17.5 (by weight), 100:17 (by volume)
    Bond Strength
    General Bond Strength (psi) High
    Peel Strength (piw) 95, 114, 20, 50, 115 Test Method
    Tear Strength (piw) 300 (pli), 289 (pli), 295 (pli), 290 (pli), 210 (pli), 256.3 (pli), 266.2 (pli), 245 (pli), 245 (pli) Test Method
    Tensile Strength (psi) 1,900, 2,275, 1,920, 1,800, 1,025, 1,900, 1,800, 1,350, 1,200, >1,900, 800, 1,600, 2,000, 1,700, 775, 700 Test Method
    Material Resistance
    Arc Resistance (sec) Arc Resistance Test Method
    Fungus Resistance Fungus resistance
    Ozone Resistance Excellent ozone resistance
    High Temperature Resistance (°C) 130, 97, Thermal shock resistance Test Method
    Low Temperature Resistance (°C) -70 Test Method
    Moisture/Humidity Resistance Superior hydrolytic stability
    Conductivity
    Dissipation Factor Low, 0.03100, 0.02800, 0.01700, 0.03400, 0.02500, 0.03200, 0.01000, 0.04700, 0.06400, 0.03000, 0.03000, 0.03000, 0.03000, 0.03000, 0.03000 Test Method
    Insulation Resistance (O) >2.5e13 (Ohms), 1.68e10 (Ohms) , 1.7e10 (Ohms) Test Method
    Dielectric Strength (V/mil) Excellent, High, 610 Test Method
    Dielectric Constant Low, 3.03, 4.03, 3.78, 2.95, 3.89, 3.78, 2.81, 3.06, 3.14, 3.00, 3.00, 2.80, 3.80, 3.80, 3.10 Test Method
    Volume Resistivity (O) 3.42e15 (ohms/cm), 3.22e11 (ohms/cm), 3.15e11 (ohms/cm) Test Method
    Surface Resistivity (O) >1.02e15 (ohms) , 1.47e12 (ohms), 1.02e13 (ohms), >1.0e15 (ohms / sq), 1.0e13 (ohms / sq.) Test Method
    Hardness
    Shore A Hardness 85 to 95, 90, 90, 87, 84, 85 to 92, 88 to 94, 87 to 92, 89 to 93, 90, 90, 87, 90, 89 Test Method
    Elongation (%) 400, 385, 380, 350, 410, 356, 253, 186, 380, 380, 450, 370, 450, 190 Test Method
    Modulus (psi) 800, 1,600, 1,560, 1,500, 1,400, 700, 2,150, 1,875, 1,740, 975, 825, 1,100, 900, 900, 1,300, 1,800 Test Method
    Other Properties
    Specific Gravity 1.010 Test Method
    % Solids (%) >99
    Business Information
    Shelf Life Details The component parts of CONATHANE® EN-9 OZR have a shelf life of 15 months from date of manufacture in the original unopened containers when stored at 70-85°F. If containers are opened and the contents only partially used, containers should be flushed with dry nitrogen (see CONAP® Dri-Purge) before resealing to prevent waste of material.
    Shelf Life Temperature (°F) 70 to 85
    Shelf Life Type From date of manufacture
    Shelf Life (mon) 15

  • Best Practices for Elantas (Altana) Conathane EN-9 OZR

    *See Terms of Use Below

    1. Mixing

      Mix the two components together thoroughly at 25°C-60°C using metal, plastic or glass stirrers and containers. Degas the mixed material at 1-5mm of mercury and pour into molds at 25°C-100°C. Containers should be large enough to allow for volume expansion during the degassing cycle. Any material or container that could introduce moisture into the system should be avoided.

  • Comparable Materials for Elantas (Altana) Conathane EN-9 OZR

    *See Terms of Use Below

    Spec Engine® Results

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Linear Shrinkage Test Methods
Linear Shrinkage Test Method
1.00 % MIL-M-24041C
Viscosity Test Methods
Viscosity Test Method Temperature
Low
8,000 cPs Mixed Viscosity @ 25°C, Initial 25°C
8,800 cPs Mixed Viscosity @ 25°C, 10 minutes 25°C
12,400 cPs Mixed Viscosity @ 25°C, 20 minutes 25°C
26,800 cPs Mixed Viscosity @ 25°C, 30 minutes 25°C
70,000 cPs Mixed Viscosity @ 25°C, 40 minutes 25°C
208,000 cPs Mixed Viscosity @ 25°C, 50 minutes 25°C
250,000 cPs Mixed Viscosity @ 25°C, 60 minutes 25°C
Set Time Test Methods
Set Time Set Temperature Test Method
42 min 25°C Gel time (100,000 cP), mixed
60 min 25°C Gel time (250,000 cP), mixed
Tensile Strength Test Methods
Tensile Strength Cure Time Cure Temperature Test Time Test Temperature Test Method
1,900 psi 960 min 80°C 4,320 min 25°C ASTM D-412
2,275 psi Initial Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
1,920 psi 40,320 min Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
1,800 psi 80,640 min Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
1,025 psi 172,800 min Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
1,900 psi Initial HEAT AGING AT 100°C
1,800 psi 10,080 min HEAT AGING AT 100°C
1,350 psi 20,160 min HEAT AGING AT 100°C
1,200 psi 40,320 min HEAT AGING AT 100°C
>1,900 psi 25°C ASTM D412
800 psi ASTM D412, 100% modulus
1,600 psi ASTM D412, 300% modulus
2,000 psi ASTM D412, 300% modulus, (97°C / 95% RH)
1,700 psi ASTM D412, 300% modulus, (97°C / 95% RH)
775 psi ASTM D412, 300% modulus, (97°C / 95% RH)
700 psi ASTM D412, 300% modulus, (97°C / 95% RH)
Peel Strength Test Methods
Peel Strength Cure Time Cure Temperature Substrate Test Time Test Temperature Test Method
95 piw 960 min 80°C CRES primed w/AD-1146-C 4,320 min 25°C MIL-M-24041
114 piw 960 min 80°C Monel primed w/AD-1146-C 4,320 min 25°C MIL-M-24041
20 piw 960 min 80°C Neoprene primed w/PR-1167 4,320 min 25°C MIL-M-24041
50 piw 960 min 80°C PVC primed w/AD-1161 4,320 min 25°C MIL-M-24041
115 piw Monel primed w/AD-1147-C
Tear Strength Test Methods
Tear Strength Cure Time Cure Temperature Test Time Test Temperature Test Method
300 (pli) 960 min 80°C 4,320 min 25°C ASTM D-624, Die C
289 (pli) Initial Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
295 (pli) 40,320 min Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
290 (pli) 80,640 min Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
210 (pli) 172,800 min Elastomers prepared from EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours upon removal from chamber.
256.3 (pli) Initial HEAT AGING AT 100°C
266.2 (pli) 10,080 min HEAT AGING AT 100°C
245 (pli) 20,160 min HEAT AGING AT 100°C
245 (pli) 40,320 min HEAT AGING AT 100°C
High Temperature Resistance Test Methods
High Temperature Resistance Test Method
130°C MIL-I-16923E, pass 10
97°C
Thermal shock resistance
Low Temperature Resistance Test Methods
Low Temperature Resistance Test Method
-70°C MIL-I-16923E, pass 10
Arc Resistance Test Methods
Arc Resistance Test Method
Arc Resistance MIL-M-24041C
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
Low
3.03 25°C ASTM D-150, 100 Hz
4.03 105°C ASTM D-150, 100 Hz
3.78 130°C ASTM D-150, 100 Hz
2.95 25°C ASTM D-150, 1 KHz
3.89 105°C ASTM D-150, 1 KHz
3.78 130°C ASTM D-150, 1 KHz
2.81 25°C ASTM D-150, 1 MHz
3.06 105°C ASTM D-150, 1 MHz
3.14 130°C ASTM D-150, 1 MHz
3.00 25°C 100 Hz, ASTM D150
3.00 25°C 1 kHz, ASTM D150
2.80 25°C 1 MHz, ASTM D150
3.80 130°C 100 Hz, ASTM D150
3.80 130°C 1 kHz, ASTM D150
3.10 130°C 1 MHz, ASTM D150
Dielectric Strength Test Methods
Dielectric Strength Temperature Test Method
Excellent
High
610 V/mil 25°C ASTM D-149, (1/16")
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
Low
0.03100 25°C ASTM D-150, 100 Hz
0.02800 105°C ASTM D-150, 100 Hz
0.01700 130°C ASTM D-150, 100 Hz
0.03400 25°C ASTM D-150, 1 KHz
0.02500 105°C ASTM D-150, 1 KHz
0.03200 130°C ASTM D-150, 1 KHz
0.01000 25°C ASTM D-150, 1 MHz
0.04700 105°C ASTM D-150, 1 MHz
0.06400 130°C ASTM D-150, 1 MHz
0.03000 25°C 100 Hz, ASTM D150
0.03000 25°C 1 kHz, ASTM D150
0.03000 25°C 1 MHz, ASTM D150
0.03000 130°C 100 Hz, ASTM D150
0.03000 130°C 1 kHz, ASTM D150
0.03000 130°C 1 MHz, ASTM D150
Insulation Resistance Test Methods
Insulation Resistance Temperature Test Method
>2.5e13 (Ohms) 25°C MIL-M-24041
1.68e10 (Ohms) 105°C MIL-M-24041
1.7e10 (Ohms) 130°C MIL-M-24041
Volume Resistivity Test Methods
Volume Resistivity Temp (°C) Test Method
3.42e15 (ohms/cm) 25°C ASTM D-257
3.22e11 (ohms/cm) 105°C ASTM D-257
3.15e11 (ohms/cm) 130°C ASTM D-257
Surface Resistivity Test Methods
Surface Resistivity Temperature Test Method
>1.02e15 (ohms) 25°C ASTM D-257
1.47e12 (ohms) 105°C ASTM D-257
1.02e13 (ohms) 130°C ASTM D-257
>1.0e15 (ohms / sq) 25°C ASTM D257
1.0e13 (ohms / sq.) 130°C ASTM D257
Elongation Test Methods
Elongation Test Method
400 % Initial
385 % 28 Days
380 % 56 Days
350 % 120 Days
410 % Initial
356 % 7 Days
253 % 14 Days
186 % 28 Days
380 % ASTM D-413, Ultimate Elongation
380 % 25°C, ASTM D412, Ultimate Elongation
450 % ASTM D412, Ultimate Elongation, (97°C / 95% RH), Original
370 % ASTM D412, Ultimate Elongation, (97°C / 95% RH), After 112 Days
450 % ASTM D412, Ultimate Elongation, (100°C), Original
190 % ASTM D412, Ultimate Elongation, (100°C), After 28 Days
Shore A Hardness Test Methods
Shore A Hardness Shore Hardness Test Method
85 to 95 ASTM D-2240
90 Initial
90 28 Days
87 56 Days
84 120 Days
85 to 92 Initial
88 to 94 7 Days
87 to 92 14 Days
89 to 93 28 Days
90 25°C, ASTM D2240
90 ASTM D2240, Original, (97°C / 95% RH)
87 ASTM D2240, After 112 Days, (97°C / 95% RH)
90 ASTM D2240, Original, (100°C)
89 ASTM D2240, (100°C), After 28 Days
Modulus Test Methods
Modulus Test Method
800 psi 100 %, cured 16 hours at 80°C (176°F) and conditioned at 25°C for 3 days prior to testing.
1,600 psi 300 %, cured 16 hours at 80°C (176°F) and conditioned at 25°C for 3 days prior to testing.
1,560 psi 100%, Initial, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,500 psi 100%, 28 Days, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,400 psi 100%, 56 Days, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
700 psi 100%, 120 Days, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
2,150 psi 300%, Initial, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,875 psi 300%, 28 Days, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,740 psi 300%, 56 Days, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
975 psi 300%, 120 Days, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
825 psi 100%, Initial, HEAT AGING AT 100°C, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,100 psi 100%, 7 Days, HEAT AGING AT 100°C, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
900 psi 100 %, 14 Days, HEAT AGING AT 100°C, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
900 psi 100%, 28 Days, HEAT AGING AT 100°C, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,300 psi 300%, Initial, HEAT AGING AT 100°C, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
1,800 psi 300%, 7 Days, HEAT AGING AT 100°C, Elastomers prepared from CONATHANE EN-9 OZR offer unsurpassed hydrolytic stability. The following table presents the properties of these elastomers after continuous exposure to 97°C - 95% R.H. for the periods indicated. Specimens were tested within 24 hours after removal from chamber.
Specific Gravity Test Methods
Specific Gravity Temperature Test Method
1.010 25°C ASTM D-792