Carbon Fibre Spread Tow Prepreg 88g 18 x 18mm Squares Plain Weave 1000mm Width Autoclave

In stock
Regular price £89.99 GBP inc. VAT
Length

https://www.ebay.co.uk/itm/314715573867

SPECIFICATION

Fabric Specification
Fibre Specifics Toray T700 12k
Colour Black
Fibre Orientation 0, 90
Type Component Prepreg
Resin Matrix Epoxy
Weave 1 x 1 Plain
Format Woven Fabric
Filament Count 12k
Fibre Type Carbon Fibre
Ends 0.55 /cm
Picks 0.56 cm
Weight and Dimensions
Width 1000 mm
Consolidated Thickness 0.12 mm
Areal Weight 88 g/m²
Resin Weight 48 %
Fibre Properties
Min Cure Temp 80 °C
Max Cure Temp 120 °C
Max Service Temp 130 °C
Filament Diameter 7 µm
Out-life (at 20°C) 30 Days
Freezer-life (at -18°C) 12 Months
UV Resistance Good
General Properties
Gross Weight 0.38 kg
Brand XPREG

Carbon fiber prepreg 88g spread tow fabric represents a cutting-edge advancement in composite materials, combining the lightweight properties of carbon fiber with the innovative spread tow technology. This fabric is designed with an incredibly low areal weight of 88 grams per square meter, making it one of the lightest options available. The spread tow technology involves spreading carbon fiber tows into a thin and flat configuration, enhancing the fiber density and improving the fabric's mechanical properties. The result is a high-performance material that delivers exceptional strength and stiffness while maintaining an impressively low weight, catering to industries that demand the utmost in structural efficiency.

The 88g spread tow fabric finds applications in sectors such as aerospace, automotive, and sports equipment, where weight reduction is paramount without compromising on performance. The thin and uniform distribution of carbon fibers allows for precise control over material orientation, ensuring optimal load-bearing capabilities along specific directions. This prepreg fabric simplifies the manufacturing process by incorporating a resin matrix, enabling easy handling and placement during component fabrication. The 88g spread tow fabric's combination of advanced materials and lightweight design makes it a versatile choice for engineers seeking to push the boundaries of structural efficiency and performance in their designs