Advanced 3D Printing with Sustainable Materials

InLiq 3D® (patented technology) is a biomaterial-based solution designed to transform additive manufacturing. It enables printing of complex geometries without support structures and allows integration of technical or biologically active compounds directly into printable materials. This innovation combines sustainability with functionality, opening new possibilities for medical, industrial, and research applications.

Key Features & Benefits

Patented InLiq 3D® technology – unique biomaterial formulation for advanced printing

Print complex geometries without supports – reduces material waste and processing time

Integrate active compounds and fillers – technical or biologically active components can be embedded during printing

Fully biodegradable and microplastic-free – sustainable alternative to conventional polymers

High precision and performance – suitable for medical and industrial applications

Challenge

3D printing is revolutionizing manufacturing, but conventional materials often rely on synthetic polymers that generate waste, require support structures, and limit functionality. Industries need solutions that are biodegradable, microplastic-free, and capable of incorporating active compounds—without sacrificing precision or design flexibility.

How InLiq 3D Works

InLiq 3D® uses a proprietary biomaterial platform that supports layer-by-layer deposition without the need for underlying supports, enabling intricate designs and reducing waste. Post-processing is environmentally friendly—printed objects require only a water rinse for finalization.

The technology is suitable for photocuring printing resins and composites, photocuring silicone, and ion cross-linking hydrogels. Its formulation allows active compounds or fillers to be incorporated into the printable material or applied to the surface layer, creating functionalized objects for specialized applications. This flexibility makes InLiq 3D® ideal for medical devices, research tools, and industrial components.

Field Testing & Real-Life Validation

InLiq 3D has been tested in laboratory and pilot-scale environments, successfully producing complex structures without support materialls.

Trials confirm its ability to integrate active compounds while maintaining structural integrity and precision.

Applications

Functionalized 3D-printed components – enabling advanced functionality in printed parts

Biotechnological applications – supporting cutting-edge research and development

Medical and dental solutions – precise, sustainable products for healthcare

Drug-release systems – controlled delivery through 3D-printed structures

Customized industrial parts – complex geometries without support materials

Research and development tools – versatile platform for innovation

Learn More About InLiq 3D Printing

Interested in how InLiq 3D Printing can support your production? Get in touch with our team for more information.