HAGE3D – Where Visions Become Reality

Welcome to HAGE3D, your partner for 3D printing and additive manufacturing. For several years we have been researching and developing reliable 3D printers with our team consisting of experts in additive manufacturing, mechanical engineering, electrical engineering, plastics engineering and mechanics. The stable HAGE3D printing solutions for highly dynamic FFF rapid prototyping processes (enamel coating process) promise detail accuracy and highest precision. The large built chambers of the HAGE3D models are available for printouts of any kind. Positioning accuracies up to 0.1 mm give a precise three-dimensional impression.

This has allowed us to record steady growth and – and this is even more important to us – able and able to satisfy our well-known customers and partners from industry, industry and research. We accompany the initial consultation, the optimal advice, purchase and on-site assembly, to training, support and on-site service. At our two locations in Graz and Obdach, we are constantly working on further improving our proven 3D printing systems and constantly developing new technologies, techniques and methods.

Material Extrusion – The basic technology of HAGE3D

The basic technology of HAGE3D is the material extrusion (term according to EN ISO / ASTM 52900, Edition 2017), an extrusion-based sub-discipline of additive manufacturing. Due to the material extrusion a wide variety of molding compounds can be processed, such as granules or filaments. If the processing is based on filaments, the technology is also called FFF (Fused Filament Fabrication), FDM (Fused Deposition Modeling, Stratasys Ltd. © 2017) or FLM (Fused Layer Modeling, VDI 3405 term). The material is conveyed in the melt state (hot extrusion) or in the pasty state (cold extrusion) through a nozzle and laid down in strands. The term “material extrusion” is chosen on the basis of the term “material extrusion”, which is becoming more and more popular in the English professional world, and draws on a solid standardization. Compared to other additive manufacturing technologies, the process offers the advantages of a compact process, material openness and high print volumes, as well as the potential for multiple extrusion (hybrid components, etc.).

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