We use advanced simulation tools to test your design against real-world constraints. With over 20 years of experience in FEA and CFD, we model crashworthiness, airflow, and system robustness using verified ARPRO material models, optimising your solution before a single part is made.
Simulation is a critical part of our development workflow. Our engineers use Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) to digitally validate your design. This means we can predict how your ARPRO part will perform under stress, impact, heat, and airflow, long before physical testing.
Our material models are highly refined, based on decades of crash and drop test data. These allow us to simulate the deformation, energy absorption, or airflow performance of a component with exceptional accuracy. For HVAC parts, for example, we evaluate how geometry modifications affect pressure drop. For automotive structures, we assess crash behaviour under dynamic loads.
By identifying weaknesses and testing performance virtually, we reduce design risk, eliminate unnecessary iterations, and accelerate time to market. We also use these insights to optimise ARPRO density, shape, and wall thickness, ensuring each part meets safety and efficiency goals with minimum material usage.
Simulation helps move your project forward with confidence and clarity.
