Microstructure Features and Carbon Partitioning of Low Temperature Bainitic Steel: The Effect of Magnetic Field

[1]  C. Zheng,et al.  Effect of carbon distribution range in mixed bainite / martensite / retained austenite microstructure on mechanical properties , 2022, Journal of Materials Research and Technology.

[2]  Fucheng Zhang,et al.  Effect of introduced vanadium carbide at the bay region on bainite transformation, microstructure and mechanical properties of high-carbon and high-silicon steel , 2021 .

[3]  Avanish Kumar,et al.  Mechanical properties of nanostructured bainitic steels , 2021 .

[4]  Fucheng Zhang,et al.  Effect of magnetic field on microstructure and mechanical properties of austempered 70Si3MnCr steel , 2019, Materials Science and Engineering: A.

[5]  G. H. Zhang,et al.  Low-temperature nanostructured bainite transformation: The effect of magnetic field , 2019, Materials Letters.

[6]  Fucheng Zhang,et al.  Accelerating nano-bainite transformation based on a new constructed microstructural predicting model , 2019, Materials Science and Engineering: A.

[7]  K. Wu,et al.  The Role of Retained Austenite and Its Carbon Concentration on Elongation of Low Temperature Bainitic Steels at Different Austenitising Temperature , 2018, Metals.

[8]  K. Wu,et al.  Effect of high magnetic field on the pearlite transformation of Al-containing steel , 2018 .

[9]  J. Jiménez,et al.  Low-Temperature Bainite: A Thermal Stability Study , 2018, Metallurgical and Materials Transactions A.

[10]  B. Avishan,et al.  Two-step austempering of high performance steel with nanoscale microstructure , 2017 .

[11]  H. Palkowski,et al.  Development of the low temperature bainite , 2016 .

[12]  D. Raabe,et al.  Growth of bainitic ferrite and carbon partitioning during the early stages of bainite transformation in a 2 mass silicon steel studied by in situ neutron diffraction, TEM and APT , 2016 .

[13]  H. Bhadeshia,et al.  Effect of tempering upon the tensile properties of a nanostructured bainitic steel , 2014 .

[14]  Wei Liu,et al.  Effects of high magnetic field on isothermal pearlite transformation and microstructure in a hypereutectoid steel , 2014 .

[15]  F. Hu,et al.  Multi-step isothermal bainitic transformation in medium-carbon steel , 2014 .

[16]  Z. Fucheng,et al.  Low-temperature bainite in low-carbon steel , 2014 .

[17]  T. Fukuda,et al.  Effect of magnetic field on isothermal martensitic transformation in a sensitized SUS304 austenitic stainless steel , 2013 .

[18]  T. Sourmail,et al.  Low temperature kinetics of bainite formation in high carbon steels , 2013 .

[19]  Jingkai Yang,et al.  Microstructure and mechanical properties of high-carbon Si–Al-rich steel by low-temperature austempering , 2012 .

[20]  L. Koll,et al.  On the strength of grain and phase boundaries in ferritic-martensitic dual-phase steels , 2011 .

[21]  J. Jiménez,et al.  On measurement of carbon content in retained austenite in a nanostructured bainitic steel , 2011, Journal of Materials Science.

[22]  S. Zwaag,et al.  Real-time martensitic transformation kinetics in maraging steel under high magnetic fields , 2010 .

[23]  M. Calcagnotto,et al.  Orientation gradients and geometrically necessary dislocations in ultrafine grained dual-phase steels studied by 2D and 3D EBSD , 2010 .

[24]  S. Rivoirard,et al.  Experimental evidence and thermodynamics analysis of high magnetic field effects on the austenite to ferrite transformation temperature in Fe–C–Mn alloys , 2010 .

[25]  M. Santofimia,et al.  New Experimental Evidence on the Incomplete Transformation Phenomenon in Steel. , 2009 .

[26]  Dajun Chen,et al.  Carbon partitioning during bainite transformation in 4317 type steels , 2006 .

[27]  H. Ohtsuka Effects of a high magnetic field on bainitic transformation in Fe-based alloys , 2006 .

[28]  G. M. Ludtka,et al.  Effect of 30 T magnetic field on transformations in a novel bainitic steel , 2005 .

[29]  C. Esling,et al.  New microstructural features occurring during transformation from austenite to ferrite under the kinetic influence of magnetic field in a medium carbon steel , 2004 .

[30]  G. M. Ludtka,et al.  In situ evidence of enhanced transformation kinetics in a medium carbon steel due to a high magnetic field , 2004 .

[31]  M. J. Peet,et al.  Tempering of hard mixture of bainitic ferrite and austenite , 2004 .

[32]  H. Ohtsuka Effects of strong magnetic fields on bainitic transformation , 2004 .

[33]  D. Matlock,et al.  Partitioning of carbon from supersaturated plates of ferrite, with application to steel processing and fundamentals of the bainite transformation , 2004 .

[34]  H. Bhadeshia,et al.  Acceleration of Low-temperature Bainite , 2003 .

[35]  H. Bhadeshia,et al.  Low temperature bainite , 2003 .

[36]  Francisca García Caballero,et al.  Very strong low temperature bainite , 2002 .

[37]  H. K. D. H. Bhadeshia,et al.  The mechanism of bainite formation in steels , 1980 .