Top 50 Carbon Fiber Composite in Europe

Blackwave specializes in lightweight carbon fiber reinforced plastics, utilizing advanced composite manufacturing techniques to enhance material strength and reduce weight. This technology addresses the need for durable yet lightweight materials in industries such as automotive and aerospace, improving performance and fuel efficiency.

iCOMAT develops patented Rapid Tow Shearing (RTS) technology for the production of lightweight carbon fiber composite parts, enabling faster manufacturing with reduced defects. This process significantly lowers costs and enhances sustainability in aerospace, automotive, and space industries by producing stronger components that outperform traditional materials.

Lineat utilizes reclaimed carbon fiber to create uni-directional, fiber-aligned tapes that facilitate the manufacturing of new composite components. This technology enables the recycling of carbon fiber, reducing waste and lowering the carbon footprint in industries such as aerospace and automotive.

Fairmat recycles carbon fiber composites into FairPly, a versatile and sustainable material designed for high-performance applications across various industries. This technology mitigates the environmental impact of carbon fiber waste, which is projected to reach 138 million tons in landfills over the next 50 years.

Nova Carbon develops high-performance semi-finished products from carbon fiber waste using a patented Long Fiber Realignment technology that preserves fiber length and integrity. This process addresses the significant issue of carbon fiber waste, which is largely landfilled or incinerated, by recycling valuable materials for various industries, including automotive and construction.

Antefil Composite Tech produces microengineered hybrid fibers that combine glass reinforcement with meltable, recyclable thermoplastics, enabling the creation of lightweight composite structures. This technology eliminates the need for traditional resin infusion processes, addressing the inefficiencies and environmental concerns associated with unrecyclable resins in advanced composites.

Bcomp provides lightweight, sustainable materials made from natural fibers for high-performance applications across industries. Their ampliTex and power-Ribs technologies reduce the environmental impact of products in automotive, marine, sports, and aerospace by offering a bio-based alternative to traditional materials.

Composite Recycling employs specialized processes to convert fiberglass reinforced plastics into reusable fibers, creating a closed-loop system for composite materials. This method significantly reduces the waste generated by traditional composite manufacturing, promoting sustainability in the industry.

Uplift360 develops chemical technologies to recycle waste aramid fibers and composite materials by selectively removing resin matrices and extracting petrochemical feedstock. This process transforms end-of-life products into renewed continuous fibers, reducing reliance on virgin materials and minimizing environmental impact in the defense, aerospace, and automotive sectors.

FibreCoat produces thermoplastic-coated and aluminium-coated fibres using patented coating technology for applications in composites and electromagnetic interference (EMI) shielding. Their materials provide affordable, damage-resistant solutions for electric vehicles, construction, and government sectors, enhancing thermal management and protecting against EM radiation.

Strong by Form develops lightweight timber-based biocomposites using Woodflow technology, which optimizes material architecture and fiber orientation for high-performance structural applications. This technology provides a sustainable alternative to steel, aluminum, and concrete in construction and mobility, significantly reducing material waste while enhancing load-bearing capabilities.

ExpandFibre develops sustainable bioproducts by upgrading pulp fibers, hemicellulose, and lignin sourced from straw and northern wood into textile fibers and other biomaterials. This approach addresses the demand for high-volume, low-carbon alternatives to fossil-based products in the textile industry.

PaperShell manufactures load-bearing components from pressed paper, creating a sustainable alternative to plastics and metals that significantly reduces CO2 emissions by up to 98%. This technology transforms waste paper into high-performance, biogenic materials, addressing the environmental impact of single-use items and fossil fuel reliance.

This startup produces low-carbon construction boards from recycled waste materials, enabling the construction industry to utilize sustainable alternatives to traditional wooden boards. Their products maintain compatibility with existing tools and methods, allowing businesses to reduce waste and emissions without additional costs or effort.

Fiberwood develops fossil-free insulation and packaging materials from wood fiber and other natural fibers, providing a sustainable alternative to traditional mineral wool and foam-based products. Their breathable, recyclable, and compostable solutions enhance energy efficiency while reducing reliance on fossil fuels in construction and packaging industries.

This startup develops high-voltage lithium-ion battery systems utilizing carbon fiber structural cells to create a lightweight energy storage solution for high-performance applications. Their technology enables the automobile industry to meet the increasing demand for efficient energy storage in electric vehicles and renewable energy systems.

CarbonChain provides a carbon accounting platform that enables companies in carbon-intensive industries to accurately measure, report, and manage their supply chain emissions. By offering independently verified methodologies and tools for CBAM compliance, CarbonChain helps businesses navigate rising carbon costs and fulfill disclosure requirements efficiently.

Woodoo transforms low-grade, climate-impacted wood into a high-performance composite material called STACK, which is up to seven times stronger than concrete and emits 90% fewer carbon emissions than traditional building materials. This technology provides a sustainable alternative for construction, addressing the industry's need for durable, low-carbon solutions in both structural and cladding applications.

FibriTech develops biodegradable materials using a proprietary process that transforms cellulose fibers into 3D molded structures, providing a sustainable alternative to traditional plastics. This technology addresses the environmental impact of plastic waste by offering fossil-free materials that can be tailored for various applications, including agriculture and absorbent products.

Space Forge manufactures advanced materials in microgravity, utilizing the unique conditions of space to eliminate contamination and enhance crystal formation in alloys. This approach addresses the limitations of terrestrial manufacturing processes, enabling the production of superior materials for applications in electronics, pharmaceuticals, and more.

SCALE develops bio-based composite materials that enhance performance while significantly reducing production costs and greenhouse gas emissions compared to traditional carbon fiber. By utilizing renewable resources and low-impact processes, SCALE addresses the environmental impact of advanced composites used in various industries, including automotive and sporting goods.

CompPair develops HealTech™ technology, which integrates self-healing capabilities into composite materials, allowing for rapid repairs and extending the lifespan of these structures. This approach addresses the issue of material waste in the composites industry by enabling the reuse and regeneration of damaged components, ultimately preserving their economic value.

Graphene Composites develops graphene-aerogel composites for applications in ballistic protection and pathogen resistance. Their technology enhances material strength and reduces weight, addressing the need for more effective protective gear and antimicrobial solutions in various industries.

TETMET utilizes Adaptive Spatial Lattice Manufacturing (ASLM) to produce large-scale lattice structures that are lightweight, strong, and 100% circular, addressing the high costs and complexities of traditional solid material production. This decentralized, on-demand manufacturing process significantly reduces material usage, energy consumption, and logistics costs across various industries, including automotive and aerospace.

9N transforms carbon waste into 2D graphene by capturing high-value gases through advanced recycling technologies, addressing the global challenge of carbon emissions. This process not only reduces waste but also creates valuable materials for various applications, contributing to a sustainable economy.

Nanogence specializes in the production of novel synthetic materials using advanced polymerization techniques to enhance durability and performance in construction applications. The company addresses the need for sustainable and high-performance materials that reduce environmental impact while meeting the rigorous demands of modern building projects.

PlasmaBound utilizes Controlled Plasma Ablation (CPA) technology to enhance the structural integrity and weight efficiency of materials used in automotive and aerospace applications. This process enables manufacturers to create stronger and lighter components while reducing waste and improving sustainability in production.

The startup develops carbon-negative materials that permanently sequester carbon dioxide from the atmosphere, utilizing customizable and formable recyclable components. These materials enable real estate developers, architects, and cities to achieve measurable negative carbon emissions and meet their climate targets.

The startup develops renewable, recyclable, and biodegradable materials from agricultural waste, utilizing vegetable and biodegradable fibers to create strong and durable alternatives to plastic and wood. This addresses the environmental impact of plastic pollution and the unsustainability of traditional wood products by providing a non-toxic solution for various applications.

CEAD specializes in large format thermoplastic composite 3D printing, utilizing modular robot-based systems to produce high-strength, lightweight components for various industries. Their technology reduces production time and labor costs while enabling the creation of complex geometries that traditional manufacturing methods cannot achieve.

Kompozite provides a scientific environmental data library for low-carbon building materials, enabling construction professionals to integrate carbon data directly into their existing tools like PIM and ERP systems. This platform facilitates informed material selection and supplier engagement, helping companies meet their carbon reduction targets and improve their sustainability practices.

The startup manufactures a fiber-strengthened carbon composite material that combines carbon composites with specially developed steel fibers to enhance impact resistance while maintaining low weight and high stiffness. This technology enables the production of durable and lightweight bicycle frames, providing cyclists with improved safety and longevity.

Arceon develops high-performance composite materials and structural solutions that enhance the durability and efficiency of industrial applications. By replacing traditional materials, the company enables manufacturers to lower production costs while improving product lifespan and reliability.

Plyable is a global marketplace for custom composite molds and components, utilizing a network of vetted suppliers and advanced AI to deliver precision tooling solutions up to 44% faster than traditional methods. The platform addresses the lengthy lead times in composite manufacturing by providing instant quotes and streamlined production processes, enabling rapid prototyping and large-scale production.

Afterwind provides a closed-loop recycling solution for glass fiber composites, specifically targeting end-of-life wind turbine blades. Their patented process recovers high-purity materials, creating a traceable supply chain for valuable feedstock used in industrial manufacturing.

Hycco manufactures ultra-thin, lightweight carbon fiber bipolar plates that enhance the power density of fuel cell stacks while offering a service life of over 30,000 hours. Their technology addresses the need for durable and efficient components in the hydrogen economy, particularly for heavy mobility applications like shipping and transportation.

Sintermat utilizes Spark Plasma Sintering technology to create lightweight, high-strength materials with three times the mechanical strength and twice the hardness of conventional options. These materials are designed for demanding applications in the packaging, defense, and industrial tooling sectors, offering components with significantly extended service life and reduced raw material usage.

The startup develops water-resistant biocomposite materials that can replace traditional composites like fiberglass and carbon fiber, as well as plastics and metals. These materials reduce the carbon footprint of manufacturing processes and enhance supply chain security by minimizing water absorption during production.

This startup develops nano-based materials for industrial applications, utilizing nanotechnology to create durable electrical and thermal conductors and insulators. Their products enable the production of components that can withstand high temperatures through efficient methods like compression molding and vacuum bagging, reducing manufacturing costs and complexity.

The startup produces carbon-reinforced composites using a proprietary technology that enables the continuous printing of fiber composites with various matrices. This approach enhances mechanical performance across industries, addressing the need for stronger and more durable materials in manufacturing applications.

TechnoCarbon develops Pierre-Carbone, a patented low-carbon composite material that is five times more durable than steel and requires 50% less energy to produce than traditional materials. This technology provides a sustainable alternative for construction and infrastructure, significantly reducing greenhouse gas emissions and resource consumption.

Bergen Carbon Solutions utilizes carbon capture, storage, and utilization (CCSU) technology powered by Norwegian green energy to convert CO₂ emissions into valuable carbon products, including carbon nanotubes and graphite. This process addresses the challenge of excessive greenhouse gas emissions by transforming them into sustainable materials for various industries, such as batteries and construction.

Nanoloom is developing biodegradable materials from graphene for the fashion industry, addressing the environmental impact of traditional textiles. By providing a sustainable alternative, the company enables brands to reduce their carbon footprint while maintaining high-performance standards in clothing production.

BlueLeaf engineers advanced composite materials that provide superior strength-to-weight ratios and enhanced durability for demanding applications. Our proprietary resin formulations and fiber architectures optimize structural integrity and extend component lifespan in aerospace, automotive, and defense sectors.

This startup manufactures sustainable packaging using agro-fibers sourced from renewable agricultural materials, significantly reducing reliance on wood and single-use plastics. Their products provide businesses with a lower environmental footprint, facilitating a transition to a low-carbon circular economy.

Carbon Waters develops a unique, low-environmental-impact process for producing stable, pre-dispersed graphene additives that enhance the thermal and mechanical properties of conventional materials. Their technology addresses the need for improved energy efficiency and material longevity while providing alternatives to toxic substances in various industrial applications.

Carbon Cleanup provides a software component of its Recycling System that maps sustainable materials for injection molding and 3D printing. This technology enables manufacturers to source independent, eco-friendly materials, addressing the need for sustainable practices in production processes.

ELSA Industry engineers advanced composite materials and lightweight structures for aerospace applications. They provide tailored designs and high-quality manufacturing to support sustainable aviation and autonomous UAV development.

This startup develops high-tech electric vehicles utilizing sustainable composite materials and a fully electronic steering system, featuring a full-screen augmented reality heads-up display. Their vehicles enhance urban mobility by providing an environmentally friendly transportation option that improves performance and agility in city environments.

The startup manufactures structural composite materials that provide a lightweight, fully recyclable alternative to reinforced concrete and stiffened steel for construction applications. By offering factory-fabricated panels and modular units, the company enables contractors and builders to reduce material waste and labor costs while enhancing project sustainability.