Australian additive manufacturing company Titomic has received a significant order valued at €1.02 million for its cold spray technology from a Dutch aerospace research center.
Titomic has announced a new order totaling €1.02 million from a Dutch aerospace research center. This order is for Titomic's cold spray additive manufacturing technology.
The company specializes in large-scale metal additive manufacturing and has developed a proprietary cold spray system. Cold spray is a process where metal particles are propelled at high velocities onto a substrate, forming a solid deposit without melting the particles. This method is known for its ability to create dense, strong metallic coatings and components with minimal heat input, preserving the material's properties.
While the specific research center was not named in the announcement, the focus on aerospace indicates the technology's application in developing advanced components for aircraft and potentially spacecraft. Titomic's technology is designed for high-volume production and the repair of critical metal parts, offering advantages in terms of speed and material efficiency compared to traditional manufacturing methods.
This substantial order underscores the growing interest and investment in advanced additive manufacturing solutions within the European aerospace sector. Titomic's cold spray technology is positioned to contribute to the development of lighter, stronger, and more cost-effective aerospace components.
This order highlights the increasing adoption of advanced metal additive manufacturing, specifically cold spray, by the aerospace industry. Cold spray's ability to deposit metals with minimal thermal distortion is crucial for producing high-performance components and enabling efficient repair processes. It aligns with the broader trend of leveraging additive manufacturing for complex geometries, material savings, and enhanced functional properties in demanding sectors like aerospace.
Edited by the news editor with AI from the original report — please refer to the original source.