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PRF Composite Materials RP802

PRF Composite Materials RP802 is an epoxy tooling prepreg system capable of withstanding temperatures up to 190°C after full post cure. RP-802 is available in carbon and glass woven fabrics from 200 - 800 g/m2 impregnated with epoxy resin. RP-802 prepreg allows high quality tooling laminates to be produced directly from a low temperature master model permitting a wide choice of master model materials. Using a low temperature vacuum bag and autoclave process for inital cure, the tool laminate can then be demoulded for freestanding post cure.

Polymer Name: Epoxy Resins & Compounds

Functions: Prepreg

Reinforcement Material: Carbon Fibers, Glass Fibers

Processing Methods: Prepreg Processing, Vacuum Bagging

Technical Data Sheet
  • TypeDocument Name
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Knowde Enhanced TDS

Identification & Functionality

Chemical Family

Epoxy & Epoxy Derivatives

Polymer Name

Epoxy Resins & Compounds

Reinforcement Form

Woven Fabric

Reinforcement Material

Carbon Fibers,

Glass Fibers

Composite Materials Functions

Prepreg

Technologies

Composite Materials

Product Families

Composite Materials — Prepregs & Molding Compounds

Thermoset Prepregs

Features & Benefits

Materials Features

Good Surface Finish

Key Features & Benefits
  • Initial cure from 60°C to 70°C
  • Post cure: 170°C
  • Autoclave processing
  • Excellent surface finish

Applications & Uses

Markets

Automotive & Transportation,

Consumer Goods,

Industrial

Applications

Automotive & Transportation — Automotive

Interior

Industrial — Chemical & Industrial Manufacturing

Tooling & Moldmaking

Consumer Goods — Sports & Recreation

Automotive & Transportation — Transportation

Aerospace & Aviation

Composites Processing Methods

Prepreg Processing,

Vacuum Bagging

Applications

Composite tooling

Properties

Physical Form

Fabric

Mechanical Properties
ValueUnitsTest Method / Conditions
Thermogravimetry (DSC)190°C-
Typical Properties
ValueUnitsTest Method / Conditions
Cure Temperature60–180°C-

Technical Details & Test Data

Material Types
Fiber Type Weave Style Weight Thickness/Ply Width
Carbon Twill 2/2 200 g/m2 0.23 mm 1250 mm
Carbon Twill 2/2 645 g/m2 0.72 mm 1250 mm
Glass 8HS 300 g/m2 0.25 mm 1250 mm
Glass Twill 2/2 800 g/m2 0.70 mm 1250 mm

 

Cure Cyle

Preferred initial cure can be either of the following:
60°C for 16 hours
70°C for 8 hours
Heat ramp up rate: 0.5-1.0°C/minute up to temperature, under 6-7 bar pressure and >0.9 bar vacuum.
Ensure even heat in the autoclave and make sure that temperature does not exceed over 5°C of the component initial cure temperature.
When the entire component has reached the initial curing temperature, hold for the specified time.
Cool the laminate under pressure to room temperature (or <30°C) at 3°C per minute (max).
Tooling can be demoulded from the master after this cure.
For post cure, the tool must rest on a level surface to prevent possible deformation. The recommended post cure cycle is as follows:
• From initial cure temperature, ramp up at 1°C per minute up to 170°C and cure for >2.5 hours, then cool naturally. This will provide a Tg >170°C (DSC).
• Post cure > 4h @ 170°C provides a Tg of 190°C (DSC).
The maximum heat ramp up rate at each stage is 1°C/minute.

Storage & Handling

Shelf life

Storage Temperature

 Shelf life
-18°C 12 months
20°C

Tack life: 10 days
Out life: 12 days