Unexpected Effect of Nb Addition as a Microalloying Element on Mechanical Properties of δ-TRIP Steels

The concept of microalloying was applied to the δ-TRIP (transformation-induced plasticity) steel to investigate the feasibility of increasing the mechanical properties and understanding the effect of microalloying on the morphology and structure of the steel. A hot rolled δ-TRIP steel with three dif...

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Bibliographic Details
Published inJournal of iron and steel research, international Vol. 23; no. 9; pp. 988 - 996
Main Authors SHIRI, Sajad Gholami, JAHROMI, Seyed Ahmad Jenabali, PALIZDAR, Yahya, BELBASI, Majid
Format Journal Article
LanguageEnglish
Published Singapore Elsevier Ltd 01.09.2016
Springer Singapore
Subjects
Applied and Technical Physics
Engineering
high Al steel
Machines
Manufacturing
Material
Materials Engineering
Materials Science
mechanical property
Metallic Materials
Nb microalloying
Physical Chemistry
Processes
work-hardening
δ-TRIP steel
work-hardening
mechanical property
Nb microalloying
high Al steel
δ-TRIP steel
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Summary:The concept of microalloying was applied to the δ-TRIP (transformation-induced plasticity) steel to investigate the feasibility of increasing the mechanical properties and understanding the effect of microalloying on the morphology and structure of the steel. A hot rolled δ-TRIP steel with three different contents of Nb (0, 0. 03, 0. 07 mass%) was subjected to the microstructural and mechanical examination. The high Al and Si concentration in these steels guaranteed the presence of the considerable δ-ferrite phase in the microstructure after the casting and the subsequent hot rolling. The obtained results showed that Nb dramatically affects the microstructure, the dynamic recovery and recrystallization behavior, as well as the grain shape and thus the stability of austenite after the thermomechanical process of hot rolling. The results also revealed an unexpected effect of Nb on the mechanical properties. The addition of Nb to the δ-TRIP steel led to a significant decrease in the ultimate strength (from 1144 to 917 MPa) and an increase in ductility (from 24% to 28%). These unconventional results could be explained by the change in the steel microstructure. The work-hardening behaviors of all samples exhibit three stages of the work-hardening rate evolution. At the stage 2, the work-hardening rate of the studied steels increased, being attributed to the TRIP effect and the transformation of austenite to martensite.
ISSN:1006-706X
2210-3988
DOI:10.1016/S1006-706X(16)30148-0