Composite propeller

The composite propellers can be made with Lay-Up process which creates anisotropic properties. This can be designed to create a passive adaptation of the self-twisting propeller blades. Self-twisting blades are much more energy-efficient compared to rigid propeller blades.[1] Passive adaptation in form may also be affected by the geometry of the propeller.

Lower unit production cost and production without heat are the main advantages of composite material. The initial cost of a composite propeller is usually comparable to an aluminum propeller, which is costs significantly less than one made of stainless steel. Additionally, offering easily replaceable blades is much more cost effective compared to repairing metal propellers. Composite propellers are also made of lightweight material. The composite material is about half the weight of aluminum, and 1/6 the weight of stainless-steel. A lightweight propeller reduces the amount of wear and tear on the entire boat.

Composite materials offer an environmentally friendly option as well. The corrosive resistance[2] and resistance to impact damage of composite propellers[3] can lead to a long lifetime. When a composite propeller hits debris, the propeller absorbs the impact energy instead of transferring it to the lower unit; therefore, providing more protection for the drivetrain. Corrosion from saltwater and electrolysis are basically nonexistent with composite material in water. Still, the water saturation of the propellers and the propeller application cause some problems to the longevity of composite propellers. The corrosive resistant properties of composites cannot be said to be undeniably better than traditional metal alloys in the propeller application with today's technology.[4]

• Living in a Material World at piranhapropellers.com