The introduction of WDBSD CF® sets a new benchmark in product development. The woodbased carbon fibres are characterised by high thermal resistance, electrical conductivity, and mechanical strength, making them suitable for technical applications. As a result, WDBSD CF® carbon fibres are ideal for a wide range of applications, including sports equipment, musical instruments, lightweight components for aerospace and transportation interiors, innovative structural designs, and energy storage systems.
The opening of the pilot plant for the production of WDBSD CF® marks the beginning of a new era in fibre technology. Technikum Laubholz reaffirms its position as a leader in bringing sustainable technologies to market and opens up new opportunities for technology transfer and
cross-industry collaboration.
Quotes from Key Figures:
“WDBSD CF® technology opens up new opportunities for companies to create sustainable solutions
for a wide range of products. It addresses current demands for resource efficiency, independence
from global supply chains, and substitution of fossil resources.”
Dr. Ing. Tobias Wolfinger I CEO Technikum Laubholz.
“WDBSD CF® technology significantly reduces energy consumption in fibre production while
providing excellent mechanical properties that are crucial in technical applications.”
Dr. Rolf Moors I Head of Fibre-based Biopolymer Materials at Technikum Laubholz
“WDBSD CF® allows us to expand the property profile of carbon fibres without relying on fossil
resources. While conventional carbon fibres remain relevant, wood-based carbon fibre offers an
environmentally friendly and highly effective alternative with its thermal resistance, excellent mechanical
properties and electrical conductivity.”
Erna Nawrath I Fibre Development Specialist at Technikum Laubholz
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