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EnglishOur true strength is our multidisciplinarity: all the expertise you see here works side‑by‑side, under one roof, giving our projects the agility, proximity, and breadth of knowledge they need to succeed
Research and development of innovative materials for the industries of tomorrow.
We develop advanced thermoset resin systems tailored for fiber‑reinforced composites. Our formulation work focuses on optimizing mechanical performance, durability, processing behavior, and compatibility with a wide range of fiber types to address demanding applications.
We design and refine complete manufacturing processes for composite materials, from lab‑scale trials to scalable industrial workflows. This includes curing strategies, impregnation and consolidation methods, and process optimization to ensure consistent, high‑quality composite production.
We support customers in translating composite solutions into real‑world applications, whether structural, lightweighting, protective, or functional. Our expertise spans diverse industries and helps ensure materials meet performance, reliability, and regulatory requirements in their intended environments.
We perform in‑depth characterization and develop advanced testing methods to understand resin–fiber interactions, curing behavior, failure mechanisms, and long‑term performance. This scientific foundation allows us to innovate, troubleshoot, and design materials with predictable and optimized behavior.
We support customers in selecting and developing textile materials, optimizing fiber and fabric structures, and integrating functional treatments or coatings. In parallel, we create and refine manufacturing processes and implement advanced test protocols to ensure compliance with functional and regulatory requirements.
We develop flame‑retardant systems designed to meet stringent fire, smoke, and toxicity standards. In addition to material formulation, we develop internal testing methods to accelerate laboratory evaluations.
We design flexible materials for thermal management in electronics systems. Our capabilities include formulation development, process engineering for reliable integration, and specialized testing methods to assess thermal performance, mechanical stability, and long‑term reliability.
Intelligent electronic and software solutions.
A domain focused on intelligent robotic platforms, including mechatronic payload design, localization and navigation, embedded robotic control, feature recognition, and multi‑sensor fusion for mobile systems.
Expertise in miniaturized power sources for embedded and autonomous devices. Technologies include piezoelectric, electromechanical, magnetic, thermal, and triboelectric harvesting; RF and inductive power transfer; power‑management electronics; and onboard energy storage.
A data‑centric domain spanning physics‑based modeling, wear prediction, and vehicle/tire simulation. Competencies include AI/ML modeling pipelines, physics‑informed learning, and data engineering for large‑scale sensing systems.
Expertise in multimodal sensing, imaging, and wave‑based measurement. Capabilities include stereo/multi‑vision imaging, advanced Lidar modalities, electromagnetic proximity sensing, and mechanical sensing of acceleration, vibration, and strain.
Expertise in embedded electronics for industrial and smart‑tire ecosystems. Includes RF/RFID systems, Bluetooth hardware and protocols, flexible electronics, low‑power firmware, industrial automation and system integration, and sensor‑to‑cloud architectures.
Design and optimization of complex mechanical systems in a multidisciplinary context
Design and development, research into innovative, tailor‑made solutions for products or processes.
Development of functional demonstrators, experimental models, prototypes and analytical test benches; system tuning and optimization, support to other engineering disciplines.
Finite element analysis (FEA), computational fluid dynamics (CFD) and multi physics analysis.
By combining advanced materials, precision assembly processes, and inflatable architecture, we bring technical solutions to life.
Quality and performance start with material selection. Our fabrics and films are applied to meet specifications without compromising strength and durability. Comprehensive fabric testing and qualification; traction, UV resistance, weather durability.
Advanced sewing techniques; Welding expertise: hot‑air welding, ultrasound welding, impulse welding, high‑frequency welding; Welding process qualification and optimization.
PU bladder and composite textile assembly know‑how; custom tubeless structural design; engineering of pressure‑resistant structures; bladder design and validation expertise.
Dedicated engineering office for designing versatile, lightweight, and high-performance structures. Create compact architectures that are easy to transport and install, while offering a sustainable alternative to traditional structures.
Let’s discuss your project and find out how our expertise can help you achieve your goals.