Evolution of microstructure in an ultra‐low carbon Cu bearing HSLA forging

Evolution of microstructure in an ultra‐low carbon Cu bearing HSLA forging

Over the last decade low carbon age hardenable steels have become a subject of interest for naval applications. In the present study an ultra‐low carbon Ni‐bearing steel alloyed with Cu was cast and processed by controlled forging and subsequently cooled in air, sand and water. A variety of multipha...

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Veröffentlicht in:Scandinavian journal of metallurgy 2002-08, Vol.31 (4), p.272-280
Hauptverfasser: Das, Samar, Ghosh, A., Chatterjee, S., Rao, P. Ramachandra
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
bainitic ferrite
Cross-disciplinary physics: materials science
rheology
Cu precipitates
Exact sciences and technology
MA constituents
Materials science
Metals. Metallurgy
Moiré fringes
Other heat and thermomechanical treatments
Physics
polygonal ferrite
retained austenite
strain‐induced precipitation
Treatment of materials and its effects on microstructure and properties
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Beschreibung
Zusammenfassung:Over the last decade low carbon age hardenable steels have become a subject of interest for naval applications. In the present study an ultra‐low carbon Ni‐bearing steel alloyed with Cu was cast and processed by controlled forging and subsequently cooled in air, sand and water. A variety of multiphase structures have been observed because of different cooling rates. The slowest cooling rate has produced bainitic ferrite by ledge mechanism whereas lath‐ or plate‐type bainitic ferrite was predominant at the faster cooling rates. The volume fraction of retained austenite and/or martensite austenite constituents increased with decreasing cooling rate. Precipitation of finer micro‐alloying carbides and carbonitrides was suppressed by faster cooling. Slow cooling rates also resulted in the formation of ɛ‐Cu precipitates of varying sizes and shapes.
ISSN:0371-0459
1600-0692
DOI:10.1034/j.1600-0692.2002.10597.x