Metals, Vol. 16, Pages 101: Additive Manufacturing of Layered Nb-Al2O3 Composite Granules Based on Paste Extrusion

Metals doi: 10.3390/met16010101

Authors:
Tilo Zienert
Dinesh Kumar Gunasekar
Dirk Endler
Christina Faßauer
Christos G. Aneziris

How would it be possible to functionalize ceramic aggregates for use in refractories? In this work, we demonstrate how paste extrusion can be used to fabricate layered and porous Nb-Al2O3-based composite refractories for adjusting thermal and electrical conductivity. Additive manufacturing is used to generate a specific sequence of alumina and composite layers. After drying, the samples were sintered at 1600 °C, crushed, and sieved into particle sizes up to 3150 µm. The rheology of the paste revealed the intended shear-thinning behavior with microcrack formation between the yield and flow strain. The sintered material showed promising thermal-shock characteristics reaching plateau values after the third cycle without signs of further structural damage up to the fifth thermal shock. The layered microstructure was retained after crushing the composites, establishing functionalization of the refractory granules for all particle sizes.

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Tilo Zienert www.mdpi.com