ARALDITE® CW 1195-1 / ARADUR® HW 2711-1

ARALDITE® CW 1195-1 / ARADUR® HW 2711-1 is an optimally filled casting system for electronics encapsulation.

RTU Product Type: Casting Resin

Product End Uses: Electronic Encapsulation

Chemical Family: Epoxy & Epoxy Derivatives

Composites Processing Methods: Automatic Pressure Gelation (APG), Vacuum Casting

Features: Good Thermal Conductivity, High Glass Transition Temperature, High Thermal Endurance, Low Temperature Curing

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Enhanced TDS

Identification & Functionality

Chemical Family
Epoxy & Epoxy Derivatives
Fillers Included
Inorganic
RTU Product Type
Casting Resin
Technologies
Composite Materials
Product Families
Composite Materials — Resin Systems
Casting

Features & Benefits

Ready-to-Use Product Features
Good Thermal Conductivity,
High Glass Transition Temperature,
High Thermal Endurance,
Low Temperature Curing
Product Features
  • High thermal conductivity and endurance
  • Low cure temperature / High Glass Transition Temperature
  • UL94 HB

Applications & Uses

Composites Processing Methods
Automatic Pressure Gelation (APG),
Vacuum Casting
Product End Uses
Electronic Encapsulation
Processing Information

Preparation

  • Because of the tendency to sedimentation of the filled resin and hardener in principle require stirring before removal from the original containers.
  • To avoid errors in dosage this step is especially important when removing only part of the contents. To facilitate stirring and removal, highly filled components are heated to 50 to 60°C in the original container (e.g. overnight in an oven).

 

Process Parameters APG and Vacuum Casting processes

  • To prepare the casting mix, the resin component should be homogenized in holding tank A at 50 to 80°C under a vacuum of 1 to 5 mbar, the hardener component in holding tank B at 50 to 60°C and a vacuum of 1 to 5 mbar.
Process Resin mix temperature Mold / Part temperature Demolding time Cure cycle
APG 50-70°C 130-160°C 10-40 min

Post-Cure: Minimum 1h at 140°C
Vacuum Casting 60-80°C 70-100°C -

1h/90℃ + 1.5h/140°C
  • To determine whether cross-linking has been carried to completion and the final properties are optimal, it is necessary to carry out relevant measurements on the actual object or to measure the glass transition temperature.
  • Different gel and cure cycles in the customer’s manufacturing process could lead to a different degree of cross-linking and thus a different glass transition temperature.

 

Properties

Flame Rating
UL 94 HB

Regulatory & Compliance

Certifications & Compliance
ISO 9001,
UL 94

Technical Details & Test Data

Mechanical & Physical Properties

  • Condition :  at 23°C, Cured for 1h/90°C + 1.5h/140°C.

Property Value Unit Test method
Coefficient of Thermal Expansion 95 ppm/K ISO 11359-2
Coefficient of Thermal Expansion 32 ppm/K ISO 11359-2
Critical stress intensity factor 2.1 MPa √m PM 216-0/89
Density 2 g/cm³ DIN 55990
Flammability Internal HB   UL 94 (6 mm)
Flexural Elongation 0.6 % ISO 178
Flexural Modulus 13,000 MPa ISO 178
Flexural Strength 80 MPa ISO 178
Glass Transition Temperature 160 °C ISO 11357
Specific Energy 300 J/m² PM 216-0/89
Thermal Class H - IEC 60085
Thermal Conductivity 1 W/mK ISO 8894-1

Storage & Handling

Storage Conditions
  • Store the components in a dry place in tightly sealed original containers.
  • Under these conditions, the shelf life will correspond to the expiry date stated on the label.
  • Partly emptied containers should be tightly closed immediately after use.