SYGPAST

Advanced DIW/SLE 3D printer for semi‑liquid materials with real‑time quality control system.

Your research powerhouse

The device is enable to printing from semi-liquid materials and thermoplastic filaments in a single process and provide the user with open access to modify the printing parameters, thus allowing the use of proprietary materials. Our printer not only transforms semi-liquid materials into remarkable creations but also effortlessly generates support structures using thermoplastic material, all in one seamless process. Plus, with integrated UV and IR curing capabilities, your parts are ready to be applied right after the end of the printing process.

Two-component pastes

It is a comprehensive tool for printing with pastes, including two-component pastes

Printhead

SLE1 and SLE2 head modules (printing with one- and two-component liquid materials)

Software

Sygprint,
dedicated slicer

The Hull

Proprietary solution for supporting even the most complex semi-liquid objects, automatically generated.

UV exposure, IR exposure

Illuminates UV in two wavelengths and IR, for curing and heating id-print

Market size

The SYGPAST printer will find its applications in the space industry (demanding satellite components), aerospace (fine turbine tooling), energy (specialized seals), chemical and materials industries (both for validation of manufactured materials and manufacturing of the specialized fixtures assisting in research), and wherever maintaining the continuous operation of machines and their parts requires their efficient adaptation to dynamically changing operating conditions (rearming of lines of machines by manufacturing specialized adapters, fixtures and safety devices). The technology has primary applications in three areas:
Creation of spatial structures from two-component materials with set parameters for industry (including polyurethanes).
Creation of spatial structures from ceramic materials freely doped (depending on the application) for industry.
Application in the development of specialized materials in research groups (research gate machine).

Sygpast 3D printing technology

Sygpast is a unique device that allows research and development activities in the scientific sector. Sygpast addresses the struggle of research teams by providing access to machines featuring open parametric systems, enabling them to assess the performance of materials and admixtures in final molds. In the field of industrial machinery, there are advanced solutions for specific materials, however they do not allow for free research and testing under controlled conditions of new materials.

Experience the future of 3D printing with us

Thanks to the versatility of the Sygpast printer, we can create spatial objects with geometries that increase battery capacities, among other things, or allow the creation of multi-cell batteries with good sub-insulators between each section. A favorable event for the success of the project is that Sygnis has joined the CePT II consortium (which includes UW, WUM, Unipress, PW, IBB and others), within which the Cell Prototyping Laboratory is also being established.
Interest in machines that enable research prototyping and subsequent manufacturing of target energy storage products has been confirmed by a letter of intent from the University of Warsaw, among others. The development of energy storage capabilities is key to achieving EU climate indicators. Battery research and development is one of humanity’s key issues in the coming decades, and Sygpast is an ideal vehicle for this, and in subsequent development iterations also for production processes.

Printing semi-liquid materials with FDM support structures

Sygpast revolutionizes additive manufacturing with its dual print heads: FFF and SLE, available in two versions (SLE1 and SLE2), providing research teams seamless access to machines with open parametric systems for assessing material and admixture performance in final molds.

Dedicated SYGPRINT Slicer

Our propreitary slicing software is the bridge between innovation and production, offering complete control over your 3D printing process. Whether you’re in the lab or factory, SYGPRINT empowers you to achieve your goals with confidence, precision and ease.

Mid-print UV and IR exposure

Sygpast enhances its offerings with a variety of exposure options, including UV 365 nm, UV 405 nm, and IR, by developing its own proprietary solutions.

Specifications

Number of heads
2 (incl. 1 interchangeable SLE printhead)
Types of heads
SLE1, SLE2, FFF
Working area
250 x 250 x 250 mm
Heated platform
Yes, up to 120°C
Print material
Any one- or two-component paste or semi-liquid material
Support material
Termoplastic (FFF printhead
heated up to 280°C)
Software
SYGPRINT, dedicated slicer
Quality control
Profilometer and IR camera with proprietary quality control algorithms
Curing module
UV 365 nm, UV 405 nm, IR

Quality, Made in Poland

Sygnis is proud to manufacture 3D printers at our own facility in Poland, ensuring the highest quality standards.
Our products are renowned for their performance and reliability.

Don't hesitate to reach out to us so we can boost your research like we did with all of our customers!