Researchers have developed a kinetic deposition technique that allows for both the refurbishment of existing parts and the creation of new components through additive manufacturing.
A novel method known as kinetic deposition has been developed, offering a versatile approach to component manufacturing and repair. This technology combines the principles of refurbishment with additive manufacturing capabilities, allowing for the restoration of worn or damaged parts as well as the creation of entirely new ones.
The kinetic deposition process involves depositing material onto a substrate in a controlled manner. This allows for precise build-up of material, enabling the filling of cracks, wear surfaces, or the addition of new features. The technique is adaptable for various applications, potentially extending the lifespan of existing components and reducing the need for complete replacements.
This development is particularly significant for industries that rely on durable and high-performance parts. By enabling in-situ repair and the additive creation of complex geometries, kinetic deposition offers a pathway to more sustainable manufacturing practices. The research aims to demonstrate the feasibility and effectiveness of this dual-purpose technology.
Kinetic deposition represents a significant advancement in additive manufacturing by merging repair and new part creation. This dual capability enhances material efficiency and component longevity, crucial for sectors like aerospace and automotive. The ability to refurbish existing parts in-situ aligns with the broader trend towards sustainable additive manufacturing and could reduce waste and operational costs.
Edited by the news editor with AI from the original report — please refer to the original source.