Low temperature tempering of a medium carbon steel in high magnetic field
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The effect of low temperature magnetic tempering on carbide precipitation in a medium carbon steel, 42CrMo, has been investigated in this paper, where as-quenched steel specimens were tempered at 200°C for 60 min without and with a 14-T magnetic field.Abstract:
The effect of low temperature magnetic tempering on carbide precipitation in a medium carbon steel, 42CrMo, has been investigated. As-quenched steel specimens were tempered at 200°C for 60 min without and with a 14-T magnetic field. Results show that under the magnetic field processing there forms the relatively high-temperature monoclinic χ-Fe5C2 carbide with a denser distribution and smaller sizes, as compared to the usual orthorhombic η-Fe2C carbide obtained without the magnetic field. The impact of the external magnetic field refers to a change in the precipitation sequence of the transition carbides by effectively lowering the Gibbs free energy of the high magnetization phases. The denser distribution and smaller size of χ-Fe5C2 precipitates are attributed to the increased nucleation rate and the weaker diffusion capacity required for growth as the formation temperature is lower. This offers additional dispersion strengthening to compensate for the decrease in strength and hardness due to the loss of supersaturation of carbon atoms in the matrix and raises the toughness of the steel.read more
Citations
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Crystalline, electronic, and magnetic structures of θ-Fe3C, χ-Fe5C2, and η-Fe2C from first principle calculation
TL;DR: In this paper, the Kohn-Sham equations were solved by applying the full-potential linearized augmented plane wave method, and the generalized gradient approximation in the Perdew-Wang formalism was used to the exchange and correlation energy functional.
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Molybdenum carbide precipitation in an Fe-C-Mo alloy under a high magnetic field
Z.N. Zhou,K.M. Wu +1 more
TL;DR: In this paper, the molybdenum carbide precipitation during isothermal reaction in an Fe-C-Mo alloy was influenced by applying a 12-T magnetic field.
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First-Principles Calculations on Stabilization of Iron Carbides (Fe3C, Fe5C2, and η-Fe2C) in Steels by Common Alloying Elements
TL;DR: In this paper, the authors used ab initio density functional theory (DFT) calculations to calculate the stabilization offered by common alloying elements (Al, Si, P, S, Ti, V, Cr, Mn, Ni, Co, Cu, Nb, Mo, and W) to carbides relevant to low-alloy steels.
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Alloy carbide precipitation in tempered 2.25 Cr–Mo steel under high magnetic field
T. P. Hou,K.M. Wu +1 more
TL;DR: In this paper, the influence of a high magnetic field on carbide precipitation during the tempering of a 2.25 Cr-Mo steel was investigated by means of transmission electron microscopy.
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Effect of magnetic field on interfacial energy and precipitation behavior of carbides in reduced activation steels
TL;DR: In this article, the influence of high temperature and high magnetic field on the carbide precipitation behavior in reduced activation steels was investigated and it was shown that the aspect ratio of rod-shaped M23C6 carbides decreased from 2.3 to 1.2 due to an increase of carbide/ferrite interfacial energy under the high magnetic fields.
References
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Book
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Principles of Heat Treatment of Steel
TL;DR: In this article, the principles of heat treatment of steel are discussed and discussed in the context of steel heat treatment, and the authors propose a methodology for heat treatment for steel in general.
Journal ArticleDOI
Crystal structure and morphology of the carbide precipitated from martensitic high carbon steel during the first stage of tempering
Y Hirotsu,S. Nagakura +1 more
TL;DR: A martensitic steel containing 1.13 wt. %C was tempered at 120°C for 1-100 days and the structure and morphology of precipitated carbide were studied by electron microscopy and selected area diffraction as discussed by the authors.
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Effects of a strong magnetic field on the phase stability of plain carbon steels
Journal ArticleDOI
Formation of aligned two-phase microstructures by applying a magnetic field during the austenite to ferrite transformation in steels
TL;DR: In this paper, an experimental setup has been designed to study the magnetic alignment of two-phase microstructure with the paramagnetic austenite grains aligned as chains or columns along the direction of the field in the matrix of ferromagnetic ferrite phase.