Tassilo Moritz scite author profile

In our new approach-thermoplastic 3D printing-a high-filled ceramic suspension based on thermoplastic binder systems is used to produce dense ceramic components by additive manufacturing. Alumina (67 vol%) and zirconia (45 vol%) suspensions were prepared by ball milling at a temperature of about 100°C to adjust a low viscosity. After the preparation the suspension solidified at cooling. For the sintered samples (alumina at 1600°C, zirconia at 1500°C), a density of about 99% and higher was obtained. FESEM studies of the samples' cross section showed a homogenous microstructure and a very good bond between the single printed layers.

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Additive Manufacturing of Ceramic Heat Exchanger: Opportunities and Limits of the Lithography-Based Ceramic Manufacturing (LCM)

Scheithauer

Schwarzer

Moritz

et al. 2017

J. of Materi Eng and Perform

131

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Influence of the surface charge on the permeate flux in the dead-end filtration with ceramic membranes

Moritz

Benfer

Árki

et al. 2001

Separation and Purification Technology

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Ceramic Bodies with Complex Geometries and Ceramic Shells by Freeze Casting Using Ice as Mold Material

Moritz

Richter

2006

Journal of the American Ceramic Society

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Ceramic bodies with a complex shape and closed ceramic shells encapsulating other components like steel parts were fabricated by the freeze‐casting technique using ice as a mold and as core material. The ice molds and cores were simultaneously removed with the frozen suspension liquid of the ceramic slip by subsequent freeze drying. In this way, cores can be eliminated from a closed shell by sublimation through the porosity of the shell. Moreover, the ice cores allowed to transfect other components into porous ceramic bodies. Complex dental parts such as steel rods encapsulated in porous zirconia shells achieved by this ice mold freeze casting are represented in this article.

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Ice-mould freeze casting of porous ceramic components

Moritz

Richter

2007

Journal of the European Ceramic Society

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Tassilo Moritz

Thermoplastic 3D Printing—An Additive Manufacturing Method for Producing Dense Ceramics

Additive Manufacturing of Ceramic Heat Exchanger: Opportunities and Limits of the Lithography-Based Ceramic Manufacturing (LCM)

Influence of the surface charge on the permeate flux in the dead-end filtration with ceramic membranes

Ceramic Bodies with Complex Geometries and Ceramic Shells by Freeze Casting Using Ice as Mold Material

Ice-mould freeze casting of porous ceramic components

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