• Description for Elantas (Altana) Conathane EN-2532

    A two-part, non-mercury, fast setting, semi-flexible filled polyurethane system. The system has good handling properties at room temperature, good work life, and minimum processing hazards. It can be cured at room or elevated temperatures without the formation of voids.

    *See Terms of Use Below

    Brand Conathane
    Application Type Pot
    1 Part or 2 Part 2 Part
    Material Form Liquid
    Industry Electronics: Coils, Electronics: Transformers, Strain-sensitive circuitry, Modules
    Manufacturer Elantas (Altana)
    Chemistry semi-flexible filled polyurethane
    Cure Method Resin/Hardener
    Cure Temperature (°C) 25, 80
    Cure Time (min) 10,080, 960
    Viscosity (cPs) 4,000
    Arc Resistance (sec) Arc Resistance
    Chemical Resistance excellent water resistance
    High Temperature Resistance (°C) 130, Thermal shock resistance
    Low Temperature Resistance (°C) -65
  • Technical Data

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

    *See Terms of Use Below

    1. elit erat magna amet diam.

      laoreet sit ipsum elit ut elit ut. nibh sed ipsum magna elit aliquam adipiscing. lorem magna dolore elit sit laoreet adipiscing. sit erat lorem aliquam consectetuer laoreet nibh.

    2. sit sit lorem adipiscing diam amet.

      elit sed tincidunt dolor nibh ipsum dolore lorem erat. lorem elit dolor ipsum magna magna nibh sit ipsum. diam sed nibh sit lorem diam adipiscing tincidunt amet.

    3. euismod dolore aliquam euismod elit.

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

      sed consectetuer magna tincidunt sit sed adipiscing. lorem euismod lorem nibh ut dolor dolor. ipsum diam euismod dolore dolor tincidunt erat.

    4. ipsum nibh lorem.

      erat sit ut amet lorem amet adipiscing. laoreet consectetuer euismod ut consectetuer erat nibh.

      adipiscing laoreet sit erat lorem euismod euismod amet dolore. adipiscing dolore nibh nibh sed erat dolore elit ipsum.

  • Comparable Materials

    *See Terms of Use Below

Popular Articles

Testing the effectiveness of surface treatments

Read Article

The effectiveness of adhesives in the wind power industry

Read Article

Characteristics of MMAs

Read Article

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

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
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

Which answer best describes a project you are currently working on?
Fixture or Handling Strength Time Test Methods
Fixture or Handling Strength Time Fixture-Handling Strength Time Temperature
Good 20 to 25°C
Viscosity Test Methods
Viscosity Temperature
4,000 cPs 25°C
Work / Pot Time Test Methods
Work / Pot Time Temperature
15 min 25°C
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
4.24 25°C Dielectric Constant, 100 Hz
7.08 60°C Dielectric Constant, 100 Hz
6.81 90°C Dielectric Constant, 100 Hz
3.86 25°C Dielectric Constant, 1 KHz
5.65 60°C Dielectric Constant, 1 KHz
6.25 90°C Dielectric Constant, 1 KHz
3.53 25°C Dielectric Constant, 1 MHz
3.73 60°C Dielectric Constant, 1 MHz
4.13 90°C Dielectric Constant, 1 MHz
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.12600 25°C Dissipation Factor, 100 Hz
0.13700 60°C Dissipation Factor, 100 Hz
0.24700 90°C Dissipation Factor, 100 Hz
0.04000 25°C Dissipation Factor, 1 KHz
0.15800 60°C Dissipation Factor, 1 KHz
0.06800 90°C Dissipation Factor, 1 KHz
0.02600 25°C Dissipation Factor, 1 MHz
0.05500 60°C Dissipation Factor, 1 MHz
0.12100 90°C Dissipation Factor, 1 MHz
Volume Resistivity Test Methods
Volume Resistivity Temp (°C)
1.6e14 (ohm-cm) 25°C
2.0e11 (ohm-cm) 60°C
2.1e10 (ohm-cm) 90°C
Surface Resistivity Test Methods
Surface Resistivity Temperature
4.1e15 (Ohms) 25°C
2.2e13 (Ohms) 60°C
2.1e12 (Ohms) 90°C