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Journal of Materials Engineering and Performance

Erschienen in:

25.01.2016

Static Strain Aging Behavior of a Manganese-Silicon Steel After Single and Multi-stage Straining

verfasst von: P. Seraj, S. Serajzadeh

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 3/2016

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Abstract

In this work, static strain aging behavior of an alloy steel containing high amounts of silicon and manganese was examined while the influences of initial microstructure and pre-strain on the aging kinetics were evaluated as well. The rate of strain aging in a low carbon steel was also determined and compared with that occurred in the alloy steel. The rates of static strain aging in the steels were defined at room temperature and at 95 °C by means of double-hit tensile testing and hardness measurements. In addition, three-stage aging experiments at 80 °C were carried out to estimate aging behavior under multi-pass deformation processing. The results showed that in-solution manganese and silicon atoms could significantly affect the aging behavior of the steel and reduce the kinetics of static strain aging as compared to the low carbon steel. The initial microstructure also played an important role on the aging behavior. The rapidly cooled steel having mean ferrite grain size of 9.7 μm showed the least aging susceptibility index during the aging experiments. Accordingly, the activation energies for static strain aging were calculated as 93.2 and 85.7 kJ/mole for the alloy steel having fine and coarse ferrite-pearlite structures, respectively while it was computed as 79.1 kJ/mole for the low carbon steel with ferrite mean grain size of about 16.2 μm.

Vorheriger Artikel Hot Ductility of the 17-4 PH Stainless Steels

Nächster Artikel Experimental Study on the Anisotropic Stress-Strain Behavior of Polycrystalline Ni-Mn-Ga in Directional Solidification

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Titel: Static Strain Aging Behavior of a Manganese-Silicon Steel After Single and Multi-stage Straining
verfasst von: P. Seraj
S. Serajzadeh
Publikationsdatum: 25.01.2016
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 3/2016
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-016-1906-x

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