Jürgen G. Heinrich scite author profile

This publication presents a solid freeform fabrication technique for ceramics in the alumina-silica system by layering binder-free, high-loaded ceramic slurries, followed by selective laser sintering. The low melting silica phase and the reaction sintering between silica and alumina favor the rapid prototyping of pure ceramic parts. On the basis of electroacoustic and viscosity measurements, stable slurries from Al 2 O 3 /SiO 2 powder mixtures and water with a high fluidity have been prepared for the layer deposition with a doctor blade like in tape casting. Layers with a thickness of about 100 lm were processed. It was found in laser parameter studies that ceramic parts can only be obtained using special alumina contents and laser parameters. But the biphasic approach may allow greater flexibility in the processing regime than is afforded by the use of just one material. The microstructure of these parts depends mainly on the temperature gradient induced by the laser absorption and thermal conduction. The wet shaping facilitates laser-sintered parts with a relatively high density, which could be increased by a thermal post-treatment.

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Aqueous tape casting of silicon nitride

Bitterlich

Heinrich

2002

Journal of the European Ceramic Society

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Low temperature oxidation of copper: The formation of CuO

Lenglet

Kartouni

Machefert

et al. 1995

Materials Research Bulletin

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Slurry‐Based Additive Manufacturing of Ceramics

Mühler

Gomes

Heinrich

et al. 2013

Int J Applied Ceramic Tech

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Most additive manufacturing (AM) techniques have in common that material is spread out as thin layers of a dried powder/granulate by a roller or a shaker system. These layers are mostly characterized by a low packing rate. On the other hand, appreciable densities can be reached by the use of ceramic slurries. In this context, the layer‐wise slurry deposition (LSD) has been developed. Specific features of the LSD process are reflected on the basis of already existing additive manufacturing technologies. The microstructure of laser‐sintered bodies will be discussed, and strategies for an improved microstructure during sintering will be introduced.

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