March 4-6, 2025
Spain Pavilion VI, Hall 5, Stand F135 (AEMAC)
Functionally enhanced,
process optimized,
value bonded
Discover a new way to develop the most advanced, efficient & sustainable composite materials and adhesive joints.
Technological solutions for the whole value chain of composites
Explore our capabilities and case studies
01/ DESIGN & DEVELOPMENT OF MATERIAL
We design, formulate and test new materials with tailored properties and functionalities, optimizing the material's physical - chemical characteristics to meet specific application requirements.
Our aim is to leverage the synergy between fibers, matrices, additives, particles, reinforcements and bonding agents to achieve the desired performance and function. Always with an eye on circularity and sustainability.
Levis project:
02/ COMPUTATIONAL MATERIALS
We use modelling to predict material properties of polymer-based composites before prototyping. These techniques allow to explore extensive material spaces, optimizing structures at various scales and accelerating the characterization and development of new materials with desired properties.
Iclimabuilt project:
03/ MATERIAL CHARACTERIZATION
We have capabilities and expertise in a wide range of testing techniques and procedures to study and measure mechanical, thermal, electrical and many other physical - chemical properties of the materials. This step is critical for understanding the material's structure-function relationships guiding the design and optimization of new materials for specific applications.
Techniques can range from microscopy and spectroscopy to mechanical testing, thermal and chemical analysis, degradation and aging studies, quality control and damage/defects detection.
Ambiance project:
04/ DIGITAL TWINS & PROCESS TRANSFORMATION MODELLING
We are able to create virtual replicas of physical materials and processes, allowing the simulation, analysis, and optimization of material behaviours and transformation processes in a digital environment.
This approach enables the prediction of how materials will respond under different conditions, how to optimize manufacturing processes and the optimization of performance features for the final application. In this framework, simulated data can be combined with measured data using AI methodologies.
Caelestic project:
05/ VIRTUAL PROTOTYPES
We develop digital models of products or materials before physical prototypes are manufactured. This allows designers and engineers to simulate and analyse the behaviour and performance of a product in a computer-generated environment, reducing development costs and shortening time-to-market by identifying and addressing issues early in the development process.
Genex project:
06/ TEST & EXPERIMENTATION FACILITY IN COMPOSITES & ADHESIVE JOINTS
Through our TEF in composites and adhesives, we offer a combination of physical and virtual facility in which technology providers can get primarily technical support to test their latest AI-based software and hardware technologies (including AI-powered robotics) in almost real environments. Our services cover a wide range of out-of-autoclave composite materials manufacturing processes such as RTM, Infusion, AFP, Filament Winding and Compression Moulding.
Ai-Matters project:
07/ STRUCTURAL INTEGRITY TEST LABORATORY
In our facilities we are specialized in assessing the durability, strength, and longevity of materials and structures under various conditions and loads. This includes testing for fatigue, fracture, stress, corrosion, and impact resistance to ensure that materials, such as composites and metal alloys, and structures meet rigorous safety and performance standards.
We employ a range of experimental setups and analytical techniques to simulate real-world stresses and environmental conditions, providing essential data for the design, improvement, life extension and certification of structural components.
Carbo4Power project:
08/ END-OF-LIFE & RECYCLING
In our End-of-Life and Recycling Laboratory we work on the study and development of processes for the disposal, recycling, and repurposing of composite materials and adhesives at the end of their useful life.
This laboratory conducts research on sustainable dismantling techniques, recycling methods (mechanical, chemical and biochemical), and the environmental impact assessment of waste materials.
Its goal is to create efficient and environmentally friendly solutions for recovering valuable materials, reducing waste, and promoting the circular economy by transforming end-of-life materials into new resources for manufacturing and other applications.
Eurecomp project:
Contact us if you want to learn more
By filling out this contact form, you will receive our flyer "TEF MANUFACTURING OF COMPOSITE MATERIALS" Discover our catalogue of manufacturing services, both in Physical Manufacturing Capabilities and in Virtual Manufacturing and Digital Twins.