Fused Deposition Modeling (FDM) is an additive manufacturing technology based on melting thermoplastic materials and layering them to form a final structure. This method is widely used for both industrial production and prototyping. The system supports not only filament-based manufacturing but also pellet (granule)-based production, reducing material costs and increasing production speed. Optimized for large-scale and high-strength parts, this technology offers a faster, more flexible, and efficient manufacturing process compared to traditional methods.
Our Advantages
Turkey’s Largest Enclosed Production Volume!
With a build volume of 1070 mm x 1070 mm x 1118 mm, we enable the production of large-scale parts in a single run at high speed. Structures that would typically require multiple parts and assembly in traditional manufacturing can now be produced as a single, mechanically robust component, reducing costs while ensuring structural integrity.
Hybrid Manufacturing Technology
Our advanced hybrid manufacturing system supports both filament and pellet-based production, offering a wide range of material options. Additionally, the integrated CNC machining head allows parts to be precisely processed on the same build platform, making them ready for end-use without additional post-processing. This integrated approach shortens production time, enhances overall efficiency, and enables faster, cost-effective, and high-precision manufacturing with minimal material waste.
High-Speed, Low-Cost Production with Pellet Materials
Industrial-scale pellet-based manufacturing reduces material costs by up to 10 times compared to standard filament systems, while large-diameter nozzles cut printing times from days to just hours. This significantly improves efficiency in high-volume production and allows for the rapid manufacturing of large and durable parts.
Wide Material Selection & Superior Performance
Our system supports a broad range of materials, from standard thermoplastics to high-performance engineering polymers and composite-reinforced materials. This allows us to meet the demands of industries such as aerospace, automotive, defense, and heavy industry, producing high-strength and heat-resistant parts directly within our manufacturing process. With large-scale, fast, and high-precision production at a low cost, we are pushing the boundaries of additive manufacturing. This technology is bringing the production solutions of the future to today.