At formnext 2019, EOS will demonstrate its EOS Shared Modules periphery solution for integrated and efficient additive manufacturing (AM) with systems of the EOS M 400 series. The various modules plus transport systems and control center software enable users to implement the equipping, unpacking, transporting, and sieving activities parallel to the AM build process. Both manual and automated EOS Shared Modules set-ups are available for this purpose.
This modularity gives companies maximum flexibility to configure their production scenarios. The EOS Shared Modules components are set up individually and not as a combined unit, making them available for multiple 3D printing systems simultaneously. The EOSCONNECT ControlCenter software provides users with a continuous flow of key production parameters and seamless part traceability by means of a digital twin. The result is significantly increased efficiency, particularly in series manufacturing. EOS Shared Modules maximizes machine uptime and boosts productivity, leading to reduced part costs. In the future, the Shared Modules concept will also be offered for the EOS M 300 series.
EOS will also display ToolSteel H13 – a material suitable for additively manufacturing robust tools. Furthermore, EOS will present an array of copper materials that, on account of their varying conductivities, have a large number of possible applications, specifically in electronics.
With EOS Shared Modules Manual, the workflow and transport steps upstream and downstream of a build process are performed manually. After the build process, the exchangeable frame – containing the build platform with the parts and the unmelted powder – is transferred from the AM system to a powder-tight container (IPM M Manual Xframe Container). The container is transported between the different stations using a standard pallet truck. After removal, the parts are transported to the post-processing stage, where the powder material is prepared for reuse and fed in manually (by means of the IPCM-M extra, or the IPCM-M pro, which are separately available).
EOS Shared Modules Automated is designed for automated additive manufacturing. After the 3D printing process has been completed, the exchangeable frame is moved into a gas-tight container (IPM M Inert Gas Container L). Unlike the manual configuration, this movement of the exchangeable frame is automated. Moreover, transportation from one station to the next can be done either via a pallet truck or by using the fully automated method where an automated guided vehicle brings the container to the respective stations and the user has the option of integrating a robot to subsequently transport the parts for post-processing. The IPM M Powder Station L solution (available separately) also automatically recycles unmelted powder material in a closed circuit for reuse and delivers it to the AM systems.
To ensure not only part but also data flow in AM production, the EOSCONNECT ControlCenter software provides information on all key performance indicators, regardless of the user’s location. In order to do so, the software is supplied with status information from all the hardware modules involved. In addition to the operating status of the individual 3D printing systems, all key influencing factors, such as oxygen concentration and build chamber temperature, are recorded and analyzed by the EOSCONNECT ControlCenter. The software system also records quality-related process data.
The control center always knows where each of the exchangeable frames, or IPM M Inert Gas Containers, is located, ensuring the correct assignment of system, build job, and periphery module, even when several 3D printing systems are operating in parallel. At the same time, the EOSCONNECT ControlCenter makes it possible to monitor the production progress of individual orders, as well as to supervise the production and identify any bottlenecks in the entire process chain. The result is a reliable and repeatable manufacturing process with optimized unit costs.
EOS ToolSteel H13 is a hot work steel for both hot and cold work tools that has been specially optimized for industrial 3D printing. The material is known for its high hardenability, excellent wear resistance, and outstanding heat resistance. EOS ToolSteel H13 is particularly suited to additively manufacturing die casting, forging, and casting tools for hot work applications.
Copper materials like EOS CopperAlloy CuCrZr and EOS Copper Cu feature
a particularly advantageous combination of electrical and thermal conductivity, making them highly suitable for applications such as heat exchangers, electromechanical components, or molds.
EOS
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