Elantas (Altana) FR-1212

Elantas (Altana) FR-1212 Datasheet
  • Description for Elantas (Altana) FR-1212

    A filled epoxy potting casting resin. Black version of CONAPOXY® FR-1210.

    *See Terms of Use Below

    Brand Cytec
    Application Type casting, Pot
    1 Part or 2 Part 2 Part
    Material Form Liquid
    Manufacturer Elantas (Altana)
    Chemistry Epoxy
    Cure Method Resin/Hardener
    Cure Temperature (°C) 25, 25, 25, 40, 60, 60, 60, 130
    Cure Time (min) 1,440, 1,440, 1,440, 60, 120, 120, 120, 180
    Viscosity (cPs) 95,000, 55, 40, 55, 300, 10,000, 9,000, 4,500, 10,000, Low, Low, Low, Medium/High
    Color Black, Clear Amber, Light Amber, Dark Amber
    High Temperature Resistance (°C) Good thermal shock resistance
    Other Resistance Good mechanical resistance
  • Technical Data

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

    *See Terms of Use Below

    1. sit euismod amet aliquam sit elit.

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

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

    2. consectetuer consectetuer consectetuer laoreet dolor.

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

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

    3. aliquam ut tincidunt dolore dolore.

      euismod dolore ut erat euismod magna adipiscing euismod. sed diam dolore dolore adipiscing consectetuer sed ipsum.

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

    4. nibh sit aliquam elit diam erat.

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

    5. adipiscing sit aliquam diam.

      amet aliquam euismod laoreet amet nonummy laoreet elit laoreet ipsum ut tincidunt. diam sit aliquam ipsum sit nonummy tincidunt laoreet sed laoreet nonummy dolore. nonummy diam diam aliquam dolor amet ut ipsum erat sed sed diam.

  • Comparable Materials

    *See Terms of Use Below

Popular Articles

The effectiveness of adhesives in the wind power industry

Read Article

Testing the effectiveness of surface treatments

Read Article

Epoxies in the Aerospace Industry

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

Sylgard 184 by DOW is the Top Choice for a Transparent, Silicone Encapsulant. Read Why:

Read Article

Case Study: Creating reliable, corrosion-free bonds with LORD® 406 acrylic adhesive

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

When you're researching or sourcing materials online, what device are you using?
Cure Temperature Test Methods
Cure Temperature Cure Time Test Method
25°C CONACURE EA-02
25°C CONACURE EA-028
25°C CONACURE EA-87
40°C CONACURE EA-117
130°C
60°C
60°C
60°C
Cure Time Test Methods
Cure Time Test Method
1,440 min CONACURE EA-02
1,440 min CONACURE EA-028
1,440 min CONACURE EA-87
60 min CONACURE EA-117
180 min
120 min
120 min
120 min
Linear Shrinkage Test Methods
Linear Shrinkage Test Method
0.60 % CONACURE EA-02
0.90 % CONACURE EA-028
0.40 % CONACURE EA-87
0.60 % CONACURE EA-117
Low
Set Time Test Methods
Set Time Set Temperature Test Method
Viscosity Test Methods
Viscosity Test Method Temperature
95,000 cPs CONAPOXY® FR-1210 or FR-1212 25°C
55 cPs CONACURE® EA-02 25°C
40 cPs CONACURE® EA-028 25°C
55 cPs CONACURE® EA-87 25°C
300 cPs CONACURE® EA-117 25°C
10,000 cPs CONACURE® EA-02 25°C
9,000 cPs CONACURE® EA-028 25°C
4,500 cPs CONACURE® EA-87 25°C
10,000 cPs CONACURE® EA-117 25°C
Low CONACURE® EA-02
Low CONACURE® EA-028
Low CONACURE® EA-87
Medium/High CONACURE® EA-117
Compressive Strength Test Methods
Compressive Strength Test Method
16,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-02
12,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-028
14,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-87
15,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-117
Flexural Strength Test Methods
Flexural Strength Test Method
13,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-02
7,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-028
9,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-87
12,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-117
Tensile Strength Test Methods
Tensile Strength Test Method
8,000 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-02
6,500 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-028
8,050 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-87
7,200 psi CONAPOXY® FR-1210 CURED WITH: CONACURE® EA-117
Dielectric Constant Test Methods
Dielectric Constant Temperature Test Method
4.30 25°C Dielectric Constant @ 1 Khz, CONACURE EA-02
4.90 25°C Dielectric Constant @ 1 Khz, CONACURE EA-028
4.20 25°C Dielectric Constant @ 1 Khz, CONACURE EA-87
4.00 25°C Dielectric Constant @ 1 Khz, CONACURE EA-117
Dielectric Strength Test Methods
Dielectric Strength Test Method
375 (vpm) CONACURE EA-02
375 (vpm) CONACURE EA-028
375 (vpm) CONACURE EA-87
370 (vpm) CONACURE EA-117
Dissipation Factor Test Methods
Dissipation Factor Temperature Test Method
0.00300 25°C Dissipation Factor @ 1 Khz, CONACURE EA-02
0.00600 25°C Dissipation Factor @ 1 Khz, CONACURE EA-028
0.03500 25°C Dissipation Factor @ 1 Khz, CONACURE EA-87
0.02900 25°C Dissipation Factor @ 1 Khz, CONACURE EA-117
Surface Resistivity Test Methods
Surface Resistivity Temperature Test Method
9.2e15 (ohms) 25°C CONACURE EA-02
2.5e15 (ohms) 25°C CONACURE EA-028
6.8e15 (ohms) 25°C CONACURE EA-87
4.5e15 (ohms) 25°C CONACURE EA-117
Thermal Conductivity Test Methods
Thermal Conductivity Test Method
7 to 10 (cal/sec/cm2/°C/cm) CONACURE EA-02
7 to 10 (cal/sec/cm2/°C/cm) CONACURE EA-028
7 to 10 (cal/sec/cm2/°C/cm) CONACURE EA-87
6 to 9 (cal/sec/cm2/°C/cm) CONACURE EA-117
Volume Resistivity Test Methods
Volume Resistivity Temp (°C) Test Method
3.0e14 (ohm-cm) 25°C CONACURE EA-02
3.0e13 (ohm-cm) 25°C CONACURE EA-028
4.2e15 (ohm-cm) 25°C CONACURE EA-87
4.0e14 (ohm-cm) 25°C CONACURE EA-117
Flexibility Test Methods
Flexibility Test Method
Limited flexibility CONACURE® EA-028
Limited flexibility CONACURE® EA-87
Shore D Hardness Test Methods
Shore D Hardness Shore Hardness Test Method
80 to 90
85 CONACURE EA-02
80 CONACURE EA-028
90 CONACURE EA-87
85 CONACURE EA-117
Coefficient of Thermal Expansion (CTE) Test Methods
Coefficient of Thermal Expansion (CTE) CTE Test Method
45 to 50e-6 (in/in/°C) CONACURE EA-02
45 to 50e-6 (in/in/°C) CONACURE EA-028
45 to 50e-6 (in/in/°C) CONACURE EA-87
45 to 55e-6 (in/in/°C) CONACURE EA-117
Low
Glass Transition Temp (Tg) Test Methods
Glass Transition Temp (Tg) Glass Transition Temperature (Tg) Test Method
85 to 90°C CONACURE EA-02
70 to 75°C CONACURE EA-028
85 to 90°C CONACURE EA-87
155 to 165°C CONACURE EA-117
Specific Gravity Test Methods
Specific Gravity Test Method
1.660
1.580 CONACURE EA-02
1.540 CONACURE EA-028
1.500 CONACURE EA-87
1.520 CONACURE EA-117
0.980 CONACURE EA-02 Curative
1.000 CONACURE EA-028 Curative
0.960 CONACURE EA-87 Curative
1.150 CONACURE EA-117 Curative