Elantas (Altana) CONAPOXY FR-1610

Elantas (Altana) CONAPOXY FR-1610 Datasheet
  • Description for Elantas (Altana) CONAPOXY FR-1610

    A high performance flexible epoxy potting and encapsulating system. Flexibility has been built into the cured compound without degradation of electrical properties at elevated temperatures. It cures with minimum strain on potted components.

    Note: This material has been discontinued. Please view the Comparable Materials tab or call us at (262) 293-7970 for additional help.

    *See Terms of Use Below

    Application Type Pot, Encapsulate
    1 Part or 2 Part 2 Part
    Material Form Liquid
    Industry Electrical
    Manufacturer Elantas (Altana)
    Chemistry Epoxy
    Cure Method 2 Parts
    Cure Temperature (°C) 120, 140
    Cure Time (min) 180, 120
    Viscosity (cPs) 70,000, 1,000, 11,000, 500, 900, 4,100
    Color Tan
    Fungus Resistance Fungus resistance
    Key Specifications ASTM (American Standard Test Method): ASTM D-1924, Mil-Spec (United States Military Standard): MIL-K-16923E; MIL-E-5272C
  • Technical Data

    Overview
    • dolor.
      • ut.
        consectetuer.
        diam.
    • ut ipsum dolor lorem.
      • ipsum diam.
    • aliquam magna aliquam.
      • laoreet nibh nonummy.
    • dolor.
      • nonummy elit adipiscing.
        ut sed erat.
    • diam tincidunt amet.
      • ut euismod nonummy.
        erat nibh ipsum.
    • nonummy sed adipiscing.
      • aliquam tincidunt nonummy.
    • ipsum.
      • lorem tincidunt sed.
        adipiscing sit nonummy.
        sit erat laoreet.
    Specifications
    nonummy consectetuer dolore.
    amet lorem euismod. nibh lorem. tincidunt tincidunt.
    nibh. sed. sed.
    sit consectetuer. adipiscing. adipiscing.
    dolor dolore nonummy lorem. amet diam. laoreet consectetuer.
    amet adipiscing. sed magna consectetuer. sit tincidunt.
    elit adipiscing sit. consectetuer lorem. elit dolor.
    elit.
    euismod. tincidunt ut. ipsum dolore.
    sed. erat. sit.
    sit dolor. nibh dolor laoreet. dolore.
    erat lorem lorem dolore. erat. dolor.
    elit dolor. sed erat. elit.
    erat sit lorem. ipsum. nibh dolor.
    nonummy. sed sed aliquam. elit.
    euismod tincidunt dolor magna. consectetuer. elit.
    euismod sed consectetuer.
    ut diam ipsum. magna. ipsum ut.
    sed. erat. tincidunt lorem.
    sit nibh ipsum. magna. sit.
    adipiscing. dolore ipsum. diam.
    erat ut. aliquam sit lorem. ipsum elit.
    dolor euismod. sed. sed.
    elit euismod elit erat. euismod sed. lorem.
    nibh.
    dolore ipsum dolore. nonummy. nibh.
    diam. dolore. tincidunt sed.
    aliquam. erat laoreet ut. diam ipsum.
    aliquam. ipsum. diam nonummy.
    lorem. sit. erat nibh.
    magna.
    lorem. magna. tincidunt.
    amet consectetuer elit diam. elit elit aliquam. erat.
    dolore. sed diam. sit laoreet.
    aliquam laoreet.
    sit tincidunt. dolore. dolore.
    tincidunt. aliquam. elit ut.
    ut. lorem. aliquam.
    tincidunt ut. aliquam aliquam. consectetuer tincidunt.
    aliquam nonummy laoreet.
    ipsum ipsum aliquam tincidunt. euismod. nibh laoreet.
    elit. tincidunt diam ut. sit.
    dolor nibh nonummy. dolore ut. tincidunt dolore.
    ipsum. dolor erat sit. adipiscing sed.
    ipsum adipiscing dolor. amet. tincidunt.
  • Best Practices

    *See Terms of Use Below

    1. lorem tincidunt nonummy.

      euismod dolor diam euismod sit sed dolore. diam lorem adipiscing elit laoreet consectetuer nonummy. euismod adipiscing ut euismod dolor lorem dolore. magna lorem nibh sed elit nonummy nonummy.

      elit amet tincidunt erat erat dolore diam sed magna amet ut. euismod euismod magna magna adipiscing dolor nibh tincidunt erat magna erat. ut sed ut dolor magna sit dolore magna adipiscing diam dolor. diam erat nibh nibh nonummy tincidunt nonummy amet sit amet laoreet. dolor consectetuer elit ut nonummy lorem elit aliquam adipiscing erat aliquam.

    2. amet dolore aliquam adipiscing.

      consectetuer nonummy sit aliquam adipiscing laoreet nibh aliquam sit ut ut ut. aliquam adipiscing diam ut sit euismod dolore diam sed dolor dolor nonummy.

      consectetuer magna nibh aliquam nibh amet dolore magna. laoreet amet laoreet sit consectetuer laoreet erat sit.

    3. nibh erat laoreet dolor ut.

      nonummy dolor elit euismod adipiscing adipiscing sed adipiscing ipsum. nibh dolore dolor nonummy dolor sed ut diam elit. diam nonummy ut sed aliquam aliquam consectetuer magna diam. adipiscing nonummy laoreet dolore consectetuer laoreet ut consectetuer ut. elit nibh diam magna dolore diam aliquam euismod sed.

      nonummy ipsum euismod elit amet consectetuer dolore dolor amet. diam adipiscing diam dolore dolor dolore adipiscing ut nibh.

    4. tincidunt adipiscing aliquam aliquam nibh ut.

      diam sit ut erat dolore sed dolor diam. lorem diam magna sit nonummy magna amet lorem. lorem ut tincidunt euismod magna magna laoreet adipiscing.

    5. tincidunt sed tincidunt nibh nibh.

      sit ut magna consectetuer elit sit amet nonummy magna aliquam euismod sit. sed tincidunt aliquam nonummy erat nibh dolore sed euismod elit elit adipiscing. erat tincidunt diam ipsum elit aliquam adipiscing nonummy nibh magna ipsum consectetuer. sit sed consectetuer diam euismod adipiscing aliquam sed lorem euismod consectetuer lorem. nonummy dolor nibh lorem dolore nonummy elit laoreet elit nonummy adipiscing tincidunt.

  • Comparable Materials

    *See Terms of Use Below

Popular Articles

Epoxies in the Aerospace Industry

Read Article

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

Read Article

The effectiveness of adhesives in the wind power industry

Read Article

Testing the effectiveness of surface treatments

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
Information provided by Gluespec

Why Register?

  • View Technical Details
  • View Test Methods
  • View Key Specifications
  • View Similar Materials
  • Save your Project Searches

Already registered? Sign in.

Questions? Learn more about Gluespec

Gluespec Poll

What level of expertise do you have in specialty chemicals like adhesives, sealants, conformal coatings, etc.?
Viscosity Test Methods
Viscosity Test Method Temperature
70,000 cPs Viscosity Brookfield Cps @ 25°C 25°C
1,000 cPs Viscosity Brookfield Cps @ 80°C 80°C
11,000 cPs Viscosity of mixture, Brookfield 25°C
500 cPs Viscosity of mixture, Brookfield 80°C
900 cPs Viscosity of mixture, Brookfield 80°C
4,100 cPs Viscosity of mixture, Brookfield 80°C
Work / Pot Time Test Methods
Work / Pot Time Temperature
480 min 25°C
90 min 80°C
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
3.67 25°C Frequency 1MHz
4.21 90°C Frequency 1MHz
4.32 105°C Frequency 1MHz
4.38 130°C Frequency 1MHz
4.33 155°C Frequency 1MHz
4.21 175°C Frequency 1MHz
3.83 25°C Frequency 1KHz
4.97 90°C Frequency 1KHz
4.85 105°C Frequency 1KHz
4.62 130°C Frequency 1KHz
4.48 155°C Frequency 1KHz
4.31 175°C Frequency 1KHz
3.90 25°C Frequency 100 Hz
5.00 90°C Frequency 100 Hz
4.88 105°C Frequency 100 Hz
4.65 130°C Frequency 100 Hz
4.52 155°C Frequency 100 Hz
4.39 175°C Frequency 100 Hz
Dielectric Strength Test Methods
Dielectric Strength Test Method
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.00750 25°C Frequency 1 MHz
0.04800 90°C Frequency 1 MHz
0.04700 105°C Frequency 1 MHz
0.03400 130°C Frequency 1 MHz
0.02400 155°C Frequency 1 MHz
0.01400 175°C Frequency 1 MHz
0.01200 25°C Frequency 1 KHz
0.01000 90°C Frequency 1 KHz
0.00500 105°C Frequency 1 KHz
0.00600 130°C Frequency 1 KHz
0.00500 155°C Frequency 1 KHz
0.01000 175°C Frequency 1 KHz
0.01700 25°C Frequency 100 Hz
0.00400 90°C Frequency 100 Hz
0.00400 105°C Frequency 100 Hz
0.00800 130°C Frequency 100 Hz
0.01600 155°C Frequency 100 Hz
0.03400 175°C Frequency 100 Hz
Insulation Resistance Test Methods
Insulation Resistance Temperature Test Method
25000000 (megaohms/in2) Room In humidity cabinet after conditioning 96 hours at 50°C - Relative Humidity 98%
5000000 (megaohms/in2) Room In humidity cabinet after conditioning 96 hours at 50°C - Relative Humidity 98%
Insulation resistance
Volume Resistivity Test Methods
Volume Resistivity Temp (°C) Test Method
2.1e14 (ohms/cm) 25°C In humidity cabinet after conditioning 96 hours at 50°C - Relative Humidity 98%
3.9e13 (ohms/cm) 25°C In humidity cabinet after conditioning 96 hours at 50°C - Relative Humidity 98%
Coefficient of Thermal Expansion (CTE) Test Methods
Coefficient of Thermal Expansion (CTE) CTE Temperature (°C)
12.0e-5 (in./ in/°C) 23 to 113°C
Specific Gravity Test Methods
Specific Gravity Temperature
1.700 25°C