Our technology allows for customisable porosity by introducing air bubbles during printing. This capability enables precise density control, making it ideal for applications requiring lightweight but durable components, such as aerospace parts.

Contact-free 3D printing reduces contamination risks, preserves material purity, and supports the embedding of electronics and other functional components, which are essential in high-tech fields like aerospace, biomedical, and automotive manufacturing.

Acoustic levitation minimises material waste by eliminating the need for supports or post-processing. This efficiency reduces production costs and environmental impact, aligning with sustainability goals in manufacturing.

Yes, our modular platform is designed for compatibility with current 3D printing setups. It can be easily integrated into R&D labs or scaled up for full-scale production, adapting to evolving industry needs.

Industries such as aerospace, automotive, electronics, and biomedical engineering benefit significantly. Our technology allows these sectors to produce complex, multi-functional components that require precise material placement and integration.

Our platform enables the direct integration of functional materials, such as sensors and conductive elements, into the printing process, allowing manufacturers to create smart, sensor-enabled components in a single print.

Acoustic levitation ensures precise control over material properties, alignment, and layering. This results in high-quality prints with customised features and reliable structural integrity, ideal for advanced manufacturing applications.

Our contact-free technology minimises material waste, reduces the need for support structures, and decreases post-processing requirements. These efficiencies result in lower production costs, making it an economically viable choice for high-quality, complex 3D printing.

Yes, our modular, adaptable platform is designed to scale from small R&D labs to full-scale manufacturing operations, meeting production demands across various industries while maintaining precision and efficiency.