Advanced composite materials have excellent properties such as high specific modulus, high specific strength, high temperature resistance, corrosion resistance, high damping, low noise, and high designability. They have been widely used in aerospace, automotive transportation, ship and other fields. The application of lightweight composite materials to the lightweight design of ships can greatly reduce the weight of the entire ship, increase the speed of the ship, and reduce energy consumption, thereby increasing the effective carrying capacity of the structure and improving its comprehensive performance.
Recently, Scheurer Swiss has developed ultra-modern, highly efficient large-size carbon-reinforced 3D printed components for high-tech catamarans based on advanced engineering technology combined with the fiber composite material mechanism.
According to related reports, Scheurer Swiss successfully developed carbon-reinforced composite 3D printed components, mainly due to complex engineering technology and bonding mechanism. This technology can be used to develop carbon-reinforced composite 3D printed components of the required size for the project. These components will be used in the most advanced titanium rudder bearing system components in the catamaran. Accuracy, weight and strength are the key factors that restrict the successful application of the system components. The large size 3D printed component of the two bearing rings up to 630mm in diameter is impressive, and this component will become a basic feature that makes steering a luxury catamaran easier.