Performance Optimization
Pushing the boundaries of yacht innovation to create truly unique and high-functioning features. Our expertise allows us to engineer sophisticated movable structures that enhance luxury, functionality, and the overall experience onboard. We are adept at working with a diverse range of materials, including steel, aluminum, advanced composites, and titanium, ensuring the optimal solution for every intricate application. Beyond initial design, our advanced analytical capabilities ensure that these mechanisms, and the vessel as a whole, achieve peak performance even under the most demanding conditions.
We excel in the design of intricate and innovative mechanisms that transform a yacht's functionality and aesthetics. This includes features such as transforming balconies, retractable skyroofs, adaptable stern platforms, and custom access doors. Our designs integrate seamlessly with the vessel's structure, leveraging the unique properties of materials like aluminum, steel, composites, and titanium to deliver reliable, elegant, and high-performance solutions.
Complex Mechanisms
Finite Element Analysis (FEA) is a powerful simulation method we use to predict how a product reacts to real-world forces, heat, vibration, and other physical effects. For complex yacht mechanisms and structures, FEA allows us to rigorously assess structural integrity, identify stress concentrations, predict deformation, and optimize material usage, ensuring robust and safe designs before physical prototyping.
Finite Element Analysis (FEA)
Computational Fluid Dynamics (CFD)
Computational Fluid Dynamics (CFD) is a branch of fluid mechanics that uses numerical analysis and data structures to solve and analyze problems that involve fluid flows. In yacht design, we utilize CFD to analyze hydrodynamic and aerodynamic efficiency, optimizing hull forms, appendage designs, and the interaction of complex mechanisms with water or air flow, ultimately enhancing speed, reducing drag, and improving overall vessel performance.