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Rapid Prototyping of Carbon‐Bonded Alumina Filters with Flame‐Sprayed Alumina Coating for Bottom‐Teeming Steel Ingot Casting

Tony Wetzig, Marc Neumann, Matthias Schwarz, Leandro Schöttler, Martin Abendroth, Christos G. Aneziris

2021Advanced Engineering Materials11 citationsDOIOpen Access PDF

Abstract

Although continuous casting is the state‐of‐the‐art casting method in steelmaking, ingot casting by bottom teeming has kept its relevance, for example, in the area of specialty steels. The main challenge is to meet the ever‐increasing quality requirements demanded by the customers. Regarding high‐performance steel applications, the purity with respect to the content of nonmetallic inclusions thereby is of special interest. Herein, foam templates with tailored geometry are designed and manufactured by selective laser sintering. Different coating techniques based on carbon‐bonded alumina slurries are applied to replicate foam structures with miniature cube geometry and cylindrical geometry. The techniques are evaluated regarding the porosity, pore size distribution, bulk density, mechanical strength, and shrinkage of the resulting filters. Suitable processing routes are selected to manufacture prototype batches with near‐net‐shape geometry. Finally, the feasibility of applying a flame spray coating is tested. First samples of the prototype batch are tested in industrial bottom‐teeming ingot casting.

Topics & Concepts

Materials scienceIngotCoatingMetallurgyCastingShrinkagePorositySlurryNear net shapeSteelmakingComposite materialAlloyAdvanced ceramic materials synthesisAdditive Manufacturing and 3D Printing TechnologiesAdvanced materials and composites
Rapid Prototyping of Carbon‐Bonded Alumina Filters with Flame‐Sprayed Alumina Coating for Bottom‐Teeming Steel Ingot Casting | Litcius