Elantas (Altana) Conapoxy RN-1000 w/ EA-87 Hardener

Elantas (Altana) Conapoxy RN-1000 w/ EA-87 Hardener Datasheet
  • Description for Elantas (Altana) Conapoxy RN-1000 w/ EA-87 Hardener

    It is a two-component, unfilled epoxy, potting and encapsulation of electrical / electronic devices such as modules, transformers and coils. Excellent thermal shock resistance, arc resistance.

    *See Terms of Use Below

    Brand Conapoxy, Cytec
    Application Type Casting, Potting, Encapsulation
    1 Part or 2 Part 2 Part
    Material Form Liquid
    Industry Electrical, Coils, Transformers, Modules, Eelectronic devices, Electrical Devices
    Manufacturer Elantas (Altana)
    Chemistry Unfilled epoxy
    Cure Method 2 Part cure, Heat Cure
    Cure Temperature (°C) 25 Room temperature, 60
    Cure Time (min) 1,440, 120
    Viscosity (cPs) Low, 250
    Arc Resistance (sec) Very good arc resistance
    High Temperature Resistance (°C) Good Thermal shock resistance
    Flash Point Part B Test Method ASTM D93
    Flash Point Part A Test Method ASTM D93
    Key Specifications Comply with Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011 (RoHS 2.0) as amended 31 March 2015
  • Technical Data for Elantas (Altana) Conapoxy RN-1000 w/ EA-87 Hardener

    Overview
    • Application Type
    • 1 Part or 2 Part
      • 1 Part or 2 Part - 2 Part
    • Material Form
      • Liquid
    • Industry
      • Electronics - Electrical, Electrical Devices, Eelectronic devices, Modules
      • Coils
      • Transformers
    • Chemistry
    • Application Method
      • Other - Hand-mix bench potting / casting, Meter-mix bench potting / casting, Meter-mix vacuum potting / casting
    • Cure Method
      • Heat - Heat Cure
      • 2-Part Cure - 2 Part cure
    • Key Specifications
      • RoHS (Restriction of Hazardous Substances) - Comply with Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011 (RoHS 2.0) as amended 31 March 2015
    • Brand
      • Conapoxy
      • Cytec
    Specifications
    Cure Specs
    Cure Temperature (°C) 25 Room temperature, 60
    Cure Time (min) 1,440, 120
    Viscosity (cPs) Low, 250 Test Method
    Set Time (min) 90 Test Method
    Linear Shrinkage (%) 0.80, Low Test Method
    Work / Pot Time (min) 90
    Mix Ratio 100:37 (by weight), 100:45 (by volume)
    Bond Strength
    Compressive Strength (psi) 16,000 Test Method
    Flexural Strength (psi) 9,000
    Tensile Strength (psi) 7,200 Test Method
    Material Resistance
    Arc Resistance (sec) Very good arc resistance
    High Temperature Resistance (°C) Good Thermal shock resistance
    Conductivity
    Dissipation Factor 0.04000 Test Method
    Dielectric Strength (V/mil) 350, Good Test Method
    Dielectric Constant 5.00 Test Method
    Thermal Conductivity (W/m°K) 0.20
    Volume Resistivity (O) 9.0e15 (ohms/cm) Test Method
    Surface Resistivity (O) 4.0e16 (Ohms) Test Method
    Hardness
    Shore D Hardness 88 Test Method
    Flexibility Limited flexibility
    Other Properties
    Flash Point Part B Test Method ASTM D93
    Flash Point Part A Test Method ASTM D93
    Glass Transition Temp (Tg) (°C) 75 Test Method
    Specific Gravity 1.094 Test Method
    Coefficient of Thermal Expansion (CTE) 55 (ppm / °C)
    Business Information
    Shelf Life Details The shelf life of CONAPOXY RN-1000 and the curatives is 18 months from date of manufacture when stored in the original unopened container at temperatures of 65ºF-85°F., Store at or below 25°C / 77°F in a dry controlled environment out of direct sunlight. This material should be suitable for use stored under these conditions in the original sealed containers for twelve (12) months from the date of shipment.
    Shelf Life Temperature (°F) 65 to 85, <77
    Shelf Life Type From date of manufacture, From the date of shipment.
    Shelf Life (mon) 18, 12
  • Best Practices for Elantas (Altana) Conapoxy RN-1000 w/ EA-87 Hardener

    *See Terms of Use Below

    1. Mixing

      Mix the CONAPOXY® RN-1000 Resin and respective catalyst in the ratio specified above until homogeneous. Components may be preheated up to 60°C if reduced viscosity is required. If hand mixing, degas at >27 in. Hg vacuum before use

      Mix and degas individual components thoroughly, prior to use.

    2. Curing

      Cure 24 hours at 25°C / 77°F – or – 2 hours at 60°C / 140°F for maximum properties

      The cure schedules above are based on time after the unit reaches the specified temperature and are recommendations only. The user is responsible for determining the optimum cure conditions for his application.

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    *See Terms of Use Below

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Linear Shrinkage Test Methods
Linear Shrinkage Test Method
0.80 % MIL-M-24041C 25°C
Low
Set Time Test Methods
Set Time Set Temperature Test Method
90 min 25°C Gel Time, Mixed Materials
Viscosity Test Methods
Viscosity Test Method Temperature
Low
250 cPs Mixed Materials 25°C
Tensile Strength Test Methods
Tensile Strength Test Temperature Test Method
7,200 psi 25°C ASTM D412
Compressive Strength Test Methods
Compressive Strength Test Temperature Test Method
16,000 psi 25°C ASTM D695
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
5.00 25°C ASTM D150, 1 KHz
Dielectric Strength Test Methods
Dielectric Strength Temperature Test Method
350 V/mil 25°C ASTM D149
Good
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.04000 25°C ASTM D150 @ 1 KHz
Volume Resistivity Test Methods
Volume Resistivity Temp (°C) Test Method
9.0e15 (ohms/cm) 25°C ASTM D257
Surface Resistivity Test Methods
Surface Resistivity Temperature Test Method
4.0e16 (Ohms) 25°C ASTM D257
Shore D Hardness Test Methods
Shore D Hardness Shore Hardness Test Method Hardness Temperature
88 ASTM D2240 25°C
Glass Transition Temp (Tg) Test Methods
Glass Transition Temp (Tg) Glass Transition Temperature (Tg) Test Method
75°C DSC
Specific Gravity Test Methods
Specific Gravity Temperature
1.094 25°C