Don Computing excels in enhancing sports equipment and apparel through advanced Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEA). We specialize in optimizing racing suits and athletic gear for aerodynamics, significantly improving performance in competitive sports. Our expertise extends to golf club design, using FEA and material modeling to enhance precision and shot distance. In football, we focus on helmet safety, applying FEA to reduce injury risks.
In sailing, our CFD proficiency aids in designing hulls for speed and maneuverability, showcasing our diverse capabilities in sports technology.
Our team innovates in bicycle frame design, balancing aerodynamic efficiency with strength and lightness. In running footwear, we employ material modeling to achieve optimal cushioning and stability, prioritizing athlete comfort and injury prevention. For winter sports, our FEA capabilities ensure skis and snowboards offer superior control and responsiveness.
In tennis, Don Computing’s expertise in racket design enhances playability through optimal string tension and frame stiffness. Our work in hockey stick development focuses on improving shot power and accuracy.
CFD is used to optimize the design of racing suits for sports like swimming and athletics, reducing drag and enhancing performance.
CFD and FEA help in designing bicycle frames that are not only aerodynamically efficient but also strong and lightweight.
FEA and material modeling are applied to improve the strength, flexibility, and overall performance of golf clubs, enhancing the precision and distance of shots.
Material modeling is used to design running shoes that provide optimal cushioning and stability, reducing injury risk and improving comfort.
FEA is crucial in designing football helmets to reduce the risk of concussions and other head injuries by analyzing impact forces and material deformation.
FEA is applied to optimize the flexibility and dynamic response of skis and snowboards, enhancing control and performance on snow.