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Journal of Materials Engineering and Performance

Erschienen in:

01.10.2014

Hot Ductility and Deformation Behavior of C-Mn/Nb-Microalloyed Steel Related to Cracking During Continuous Casting

verfasst von: H. A. Lanjewar, Pranavkumar Tripathi, M. Singhai, P. K. Patra

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 10/2014

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Abstract

Hot ductility studies have been performed on C-Mn and C-Mn-Nb steels with an approach to simulate the effect of cooling conditions experienced by steel in secondary cooling zone during continuous casting. Thermal oscillations prior to tensile straining deteriorate hot ductility of steel by deepening and widening the hot ductility trough. C-Mn steels are found to exhibit ductility troughs in three distinct zones whereas C-Mn-Nb steel shows drop in ductility only at low temperature in the vicinity of ferrite transformation temperatures. Start of ferrite transformation in steels causes yield ratio to increase while work hardening rates and strength coefficient decrease with decrease in test temperature in presence of thermal oscillation prior to tensile testing. Inhibition of recrystallization due to build-up of AlN particles along with the presence of MnS particles in structure and low work hardening rates causes embrittlement of steel in austenitic range. Alloying elements enhancing work hardening rates in austenitic range can be promoted to improve hot ductility. The presence of low melting phase saturated with impurities along the austenitic grain boundaries causes intergranular fracture at high temperature in C-Mn steels.

Vorheriger Artikel Constitutive Description of Tensile Flow Behavior of Cold Flow-Formed AFNOR 15CDV6 Steel at Different Deformation Levels

Nächster Artikel Non-linear Correlation Between Uniaxial Tensile Properties and Shear-Edge Hole Expansion Ratio

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Titel: Hot Ductility and Deformation Behavior of C-Mn/Nb-Microalloyed Steel Related to Cracking During Continuous Casting
verfasst von: H. A. Lanjewar
Pranavkumar Tripathi
M. Singhai
P. K. Patra
Publikationsdatum: 01.10.2014
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 10/2014
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-014-1151-0

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