JOURNAL ARTICLE
Silicon effect on sintered and tempered Fe-Mo-Si-C steel microstructure and mechanical property.
Published In: Metallurgical Research & Technology, 2024, v. 121, n. 4. P. 1 1 of 3
Database: Applied Science & Technology Source Ultimate 2 of 3
Authored By: Kallaya, Natchanon; Wanalerkngam, Arisara; Boonmee, Sarum; Tosangthum, Nattaya; Yotkaew, Thanyaporn; Morakotjinda, Monnapas; Tongsri, Ruangdaj 3 of 3
Abstract
Silicon carbide was employed as a source of silicon and carbon to produce sintered silicon steels, offering the advantages of silicon addition. This work explored the effects of low SiC contents of 1.0 and 2.0 wt.% on as-sintered and as-tempered microstructures and mechanical properties of sintered silicon steels. The experimental sintered steels were produced from mixtures of pre-alloyed Fe-1.50Mo and SiC powder. The mixtures were compacted to tensile bars, sintered at 1553 K for 2.7 ks, and cooled at 9.0 K/s with N2. Sintered specimens were tempered at 873 K and held for different times. The microstructures and mechanical properties of the sintered and tempered specimens were characterized. It was revealed that the sintered silicon-bearing steels showed low temperature phase transformations under cooling at 9.0 K/s. The sintered steel produced by 1.0 wt.% SiC addition had degenerate upper bainite microstructure and its tempered microstructure was upper bainite. The sintered steel produced by 2.0 wt.% SiC addition had a microstructure consisting of bainitic-ferrite plates, martensite plates, and austenite blocks. Its tempered microstructure was upper bainite. The tempered microstructures resembled those of sintered Si-free Fe-Mo-C steels. Tempered specimens exhibited tensile strength higher but elongation lower than sintered ones attributed to carbide precipitation strengthening. [ABSTRACT FROM AUTHOR]
Additional Information
- Source:Metallurgical Research & Technology. 2024/07, Vol. 121, Issue 4, p1
- Document Type:Article
- Subject Area:Chemistry
- Publication Date:2024
- ISSN:22713646
- DOI:10.1051/metal/2024039
- Accession Number:178241958
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