Wear and Friction Characteristics of In Situ TiC-Reinforced Ti3SiC2-Ti5Si3 Composites Against 100Cr6 Steel Counterpart

Wear and Friction Characteristics of In Situ TiC-Reinforced Ti3SiC2-Ti5Si3 Composites Against 100Cr6 Steel Counterpart

In this study, the dry sliding characteristics of a Ti3SiC2/Ti5Si3 matrix reinforced with different TiC contents against a 100Cr6 steel ball were investigated. The composites were fabricated using the spark plasma sintering method with Ti, SiC, and C powders. SEM revealed that the composites possess...

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Veröffentlicht in:Lubricants 2024-11, Vol.12 (11), p.368
Hauptverfasser: Benamor, Abdessabour, Benamor, Hiba, Hadji, Youcef, Dey, Maharshi, Chiker, Nabil, Haddad, Adel, Badji, Riad, Tricoteaux, Arnaud, Erauw, Jean-Pierre, Salhi, Merouane, Hadji, Mohamed
Format: Artikel
Sprache:eng
Schlagworte:
Bearing steels
Chromium steels
composites
Corrosion
Crack initiation
Damage tolerance
Fracture mechanics
MAX phases
Mechanical properties
Microcracks
Oxidation resistance
Particulate composites
Plasma sintering
Sintering (powder metallurgy)
Sliding
Spark plasma sintering
Ti3SiC2
Titanium carbide
Titanium silicon carbide
Tribology
wear
Wear mechanisms
Wear resistance
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Zusammenfassung:In this study, the dry sliding characteristics of a Ti3SiC2/Ti5Si3 matrix reinforced with different TiC contents against a 100Cr6 steel ball were investigated. The composites were fabricated using the spark plasma sintering method with Ti, SiC, and C powders. SEM revealed that the composites possessed damage tolerance behavior, where grain pull-out, buckling, delamination, and diffuse microcracking were observed. In comparison, the unreinforced composite showed severe adhesive wear and tribo-oxidative wear mechanisms. The integration of the TiC phase in the Ti3SiC2/Ti5Si3 matrix enhanced the wear resistance by at least one order of magnitude. A new wear regime was observed in the TiC-reinforced composites, classified as mild wear, where tribo-oxidation and third-body abrasion were dominant, with ferrous deposits on the sliding surfaces.
ISSN:2075-4442
2075-4442
DOI:10.3390/lubricants12110368