Titomic Kinetic Fusion®
What Is Titomic Kinetic Fusion®?
Titomic Kinetic Fusion®, or TKF, utilises the supersonic particle deposition of metal powders to create industrial-scale parts and complex surface coatings. Co-developed with Australia's CSIRO, Titomic has the exclusive rights to commercialise the proprietary and patented process for the application of cold-gas dynamic spraying of titanium or titanium alloy particles onto a scaffold to produce a load-bearing structure.
Alongside its patented Titomic Kinetic Fusion® process, Titomic uses automation, speciality materials, and additive manufacturing expertise to create high-performance products and solve complex engineering challenges. Titomic has the exclusive rights to commercialise the proprietary and patented Titomic Kinetic Fusion® process globally.
How it Works:
To additively manufacture metal parts, Titomic Kinetic Fusion® begins by accelerating metal particles to supersonic speeds by injecting them into a jetstream. The particles exit the spray nozzle, and upon colliding with the surface, they plastically deform, sticking to the surface and each other. The build-up of these particles rapidly develops into near-net-shape metal parts.
Titomic Kinetic Fusion® User Advantages:
- Manufacture economically with high-performance materials, including titanium, drastically reducing costs
- Build self-reliance & simple supply chains with on-demand, co-located, or in-house TKF manufacturing
- Reduce waste by 65% compared to traditional machining through near-net-shape manufacturing
Titomic Kinetic Fusion® Differentiators:
World's fastest additive manufacturing build rates, unlocking industrial-scale additive manufacturing
World's largest metal additive manufacturing, demonstrated by the TKF 9000 with a 9 x 3 x 1.5 metre build capacity
Fuse dissimilar metals to create composite metal parts, exploiting the strengths of multiple metals in a single part
Unlock High-Performance Materials with Titomic Kinetic Fusion® including:
- Titanium and Titanium alloys, including Ti-Al6-4V, CP, and more,
See the Process in Action:
Video Courtesy of Impact Innovations