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Mechanical Design and Assessment

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we research and develop solutions for the design and optimization of machinery and metallic manufacturing processes, ranging from conventional technologies such as forging and forming to advanced methods like binder jetting, sinter-HIP, and metal injection molding. Our expertise focuses on advanced modelling of mechanical systems — including dynamics, vibrations, tribology, and fatigue — and the analysis of the mechanical behaviour of materials under various operating conditions.

Using analytical and numerical models, we develop turnkey simulation tools designed to integrate into industrial environments such as digital twins and predictive maintenance systems, driving efficiency, reliability, and technological transformation in the industry.

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Solutions

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Design of mechanical systems

We design and optimise machines and their key components in order to meet the specific needs of each project, finding solutions that combine functional features, resistance and durability. Using state-of-the-art computational models, we develop specific solutions such as for bearing systems, lubrication, compliant mechanisms, rotor dynamics, electric motors and high-pressure tanks.

Mechanical reliability

We ensure the performance of critical components via state-of-the-art testing techniques for material characterisation. We develop analytical and computational models that enable in-service lifespan to be predicted, thus maximising safety and reliability of mechanical systems. As a result, we manage to obtain more reliable systems with fewer risks of unexpected faults and greater durability, thus reducing costs associated with repairs and unplanned stoppages.

Modelling, simulation and optimisation of processes

We promote efficiency and precision in manufacturing processes via the development of analytical and numerical models that study the physics and mechanics of the material structure in depth. We optimise techniques such as forging, moulding, sintering, hip and injection, ensuring better understanding and control of materials during their transformation.