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Additive manufacturing of concrete structures is a novel and emerging technology. Free contouring in civil engineering, which allows for entirely new designs, is a significant advantage. In the future, lower construction costs are expected with increased construction speeds and decreasing required materials and workers. However, architects and civil engineers rely on a certain quality of execution to fulfil construction standards. Although several techniques and approaches demonstrate the advantages, quality control during printing is highly challenging and rarely applied. Due to the continuous mixing process commonly used in 3D concrete printing, it is impossible to exclude variations in the dry mixture or water content, and a test sample cannot be taken as a representative sample for the whole structure. Although mortar properties vary only locally, a defect in one layer during printing could affect the entire integrity of the whole structure . Therefore, real-time process monitoring is required to record and document the printing process. At the Bundesanstalt für Materialforschung und -prüfung (BAM) a new test rig for the additive manufacturing of concrete is built. The primary purpose is measuring and monitoring the properties of a mortar during the printing process. The following study investigates an approach for calculating yield stress and plastic viscosity based on experimentally recorded pressure data. The calculations assume that fresh mortar behaves as a Bingham fluid and that the Buckingham-Reiner-equation is applicable. A test setup consisting of rigid pipes with integrated pressure sensors at different positions is utilized. Monitoring the printing process with different sensors is crucial for the quality control of an ongoing process.
In den vergangenen Jahren ist die Entwicklung additiver Fertigungsverfahren branchenübergreifend fortgeschritten. In der Industrie ist die Verarbeitung von Polymeren wie z. B. Polylactide (PLA) oder Acrylnitril-Butadien-Styrol-Copolymer (ABS) am weitesten verbreitet, aber auch die Verarbeitung von Metallen nimmt zu. Umfragen des Fraunhofer-Institut für Produktionstechnik und Automatisierung IPA aus dem Jahr 2016 verdeutlichen, wie hoch das Potential additiver Fertigungsverfahren eingeschätzt wird und auch die Anzahl der jährlich angemeldeten Patente im Bereich des 3D-Drucks hat sich in den letzten Jahren vervielfacht.