Abstract
Microstructural development in sintered Fe-1.5Cr-0.2Mo-xC alloys, produced under different cooling rates of 0.1℃∙s‒1 and 5.4℃∙s‒1, was investigated. It was found that, in slowly sintered Fe-1.5Cr-0.2Mo-xC alloys, the microstructure changed from hypoeutectoid to eutectoid and to hypereutectoid steel microstructural features with increasing carbon content. Under the fast-cooling rate of 5.4℃∙s‒1, the microstructural change with respect to the increase of carbon content involved the competition between the formation of ferrite + carbide mixture and that of martensite-austenite constituent. The increase of tensile strength of slowly cooled sintered Fe-1.5Cr-0.2Mo-xC alloys with increasing carbon content was attributed to the increase of pearlite fraction, while the increase of tensile strength of fast-cooled sintered Fe-1.5Cr-0.2Mo-xC alloys was attributed to ferrite morphology change, the formation of ferrite + carbide mixture, and the formation of martensite-austenite constituent.
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Publication Info
- Year
- 2025
- Type
- article
- Volume
- 36
- Issue
- 1
- Pages
- e2346-e2346
- Citations
- 0
- Access
- Closed
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Mantana YARUAN,
Wantana Koetniyom,
Thanyaporn Yotkaew
et al.
(2025).
Contributions of carbon content and cooling rate on phase transformations and mechanical properties of sintered Fe-1.5Cr-0.2Mo-xC alloys.
Journal of Metals Materials and Minerals
, 36
(1)
, e2346-e2346.
https://doi.org/10.55713/jmmm.v36i1.2346
Identifiers
- DOI
- 10.55713/jmmm.v36i1.2346