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Induction Melting in Cold Crucible Furnace for the Production of Components in Turbine Applications

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Original languageEnglish
Title of host publicationProceedings of the 13th PAMIR International Conference
Subtitle of host publicationFundamental and Applied MHD
Pages41-45
Publication statusPublished - Sept 2024
Event13th PAMIR International Conference: Fundamental and Applied MHD - Carry-le-Rouet, France
Duration: 16 Sept 202419 Sept 2024

Abstract

In the last two decades, the interest towards Nb-MASC (i.e. niobium-MASC) alloys drastically increased because of their promising mechanical properties. Their tolerance to high temperatures drove much research aimed to the production of components operating in harsh environments, especially the blades of turbines for land and aircraft applications. On the other hand, the manufacturing of Nb-MASC composites still encounters multiple challenges, primarily due to the chemical reactivity of liquid Nb and the frequent non-homogeneity of the solid cast. To overcome such complications, induction melting in cold crucible furnace is proposed.

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Induction Melting in Cold Crucible Furnace for the Production of Components in Turbine Applications. / Baake, Egbert; Guglielmi, Mattia; Köppen, A. et al.
Proceedings of the 13th PAMIR International Conference: Fundamental and Applied MHD. 2024. p. 41-45.

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Baake, E, Guglielmi, M, Köppen, A, Holzmann, E & Herbst, S 2024, Induction Melting in Cold Crucible Furnace for the Production of Components in Turbine Applications. in Proceedings of the 13th PAMIR International Conference: Fundamental and Applied MHD. pp. 41-45, 13th PAMIR International Conference, Carry-le-Rouet, France, 16 Sept 2024.
Baake, E., Guglielmi, M., Köppen, A., Holzmann, E., & Herbst, S. (2024). Induction Melting in Cold Crucible Furnace for the Production of Components in Turbine Applications. In Proceedings of the 13th PAMIR International Conference: Fundamental and Applied MHD (pp. 41-45)
Baake E, Guglielmi M, Köppen A, Holzmann E, Herbst S. Induction Melting in Cold Crucible Furnace for the Production of Components in Turbine Applications. In Proceedings of the 13th PAMIR International Conference: Fundamental and Applied MHD. 2024. p. 41-45
Baake, Egbert ; Guglielmi, Mattia ; Köppen, A. et al. / Induction Melting in Cold Crucible Furnace for the Production of Components in Turbine Applications. Proceedings of the 13th PAMIR International Conference: Fundamental and Applied MHD. 2024. pp. 41-45
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abstract = "In the last two decades, the interest towards Nb-MASC (i.e. niobium-MASC) alloys drastically increased because of their promising mechanical properties. Their tolerance to high temperatures drove much research aimed to the production of components operating in harsh environments, especially the blades of turbines for land and aircraft applications. On the other hand, the manufacturing of Nb-MASC composites still encounters multiple challenges, primarily due to the chemical reactivity of liquid Nb and the frequent non-homogeneity of the solid cast. To overcome such complications, induction melting in cold crucible furnace is proposed.",
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AU - Baake, Egbert

AU - Guglielmi, Mattia

AU - Köppen, A.

AU - Holzmann, Elisa

AU - Herbst, Sebastian

PY - 2024/9

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N2 - In the last two decades, the interest towards Nb-MASC (i.e. niobium-MASC) alloys drastically increased because of their promising mechanical properties. Their tolerance to high temperatures drove much research aimed to the production of components operating in harsh environments, especially the blades of turbines for land and aircraft applications. On the other hand, the manufacturing of Nb-MASC composites still encounters multiple challenges, primarily due to the chemical reactivity of liquid Nb and the frequent non-homogeneity of the solid cast. To overcome such complications, induction melting in cold crucible furnace is proposed.

AB - In the last two decades, the interest towards Nb-MASC (i.e. niobium-MASC) alloys drastically increased because of their promising mechanical properties. Their tolerance to high temperatures drove much research aimed to the production of components operating in harsh environments, especially the blades of turbines for land and aircraft applications. On the other hand, the manufacturing of Nb-MASC composites still encounters multiple challenges, primarily due to the chemical reactivity of liquid Nb and the frequent non-homogeneity of the solid cast. To overcome such complications, induction melting in cold crucible furnace is proposed.

UR - https://www.researchgate.net/publication/388419064_INDUCTION_MELTING_IN_COLD_CRUCIBLE_FURNACE_FOR_THE_PRODUCTION_OF_COMPONENTS_IN_TURBINE_APPLICATIONS

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