Hot corrosion behavior of Mo–Si–Ti alloys
Abstract:
The hot corrosion behavior of two ternary Mo–Si–Ti alloys (eutectic
Mo–20.0Si–52.8 Ti (at.%) and eutectoid Mo–21.0Si–34.0Ti (at.%)) was investigated at 700°C and 900°C for up to 100 h. Both Mo‐based alloys evidenced a hot corrosion attack, resulting in a uniform attack of the substrate surface. The higher Ti content of the eutectic alloy significantly reduced the formation of solid and volatile Mo oxides compared with the eutectoid alloy. After 24 h at 700°C, the corrosion products formed on the eutectic alloy were only one‐tenth the thickness of the layers formed on the eutectoid alloy. The corrosion products were examined with optical and electron microscopy. Semiquantitative electron probe micro analysis and X‐ray diffraction measurements were used to identify the formed phases. The underlying corrosion mechanisms comprising not only hot corrosion‐induced fluxing but also oxidation‐induced pesting are discussed in detail.
Mo–20.0Si–52.8 Ti (at.%) and eutectoid Mo–21.0Si–34.0Ti (at.%)) was investigated at 700°C and 900°C for up to 100 h. Both Mo‐based alloys evidenced a hot corrosion attack, resulting in a uniform attack of the substrate surface. The higher Ti content of the eutectic alloy significantly reduced the formation of solid and volatile Mo oxides compared with the eutectoid alloy. After 24 h at 700°C, the corrosion products formed on the eutectic alloy were only one‐tenth the thickness of the layers formed on the eutectoid alloy. The corrosion products were examined with optical and electron microscopy. Semiquantitative electron probe micro analysis and X‐ray diffraction measurements were used to identify the formed phases. The underlying corrosion mechanisms comprising not only hot corrosion‐induced fluxing but also oxidation‐induced pesting are discussed in detail.
| Zugehörige Institution(en) am KIT | Graduiertenkolleg 2561: Materials Compounds from Composite Materials (GRK 2561) Institut für Angewandte Materialien – Werkstoffkunde (IAM-WK) |
| Publikationstyp | Zeitschriftenaufsatz |
| Publikationsjahr | 2024 |
| Sprache | Englisch |
| Identifikator | ISSN: 0947-5117, 0043-2822, 1521-4176 KITopen-ID: 1000173973 |
| Erschienen in | Materials and Corrosion |
| Verlag | John Wiley and Sons |
| Vorab online veröffentlicht am | 19.08.2024 |
| Nachgewiesen in | Web of Science Dimensions Scopus |