Mechanism of hot ductility loss in C–Mn steels based on nonequilibrium grain boundary segregation of impurities

The subject of hot ductility in C–Mn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss in hot ductility continues to be unclear. In the present paper, the experimental hot ductility data in C–Mn steels involve: (i) a ductility...

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Published in	Journal of materials research Vol. 30; no. 10; pp. 1701 - 1714
Main Authors	Zheng, Zongwen, Yu, Hongyao, Liu, Zhenjun, Xu, Tingdong, Misra, R. Devesh K.
Format	Journal Article
Language	English
Published	New York, USA Cambridge University Press 28.05.2015 Springer International Publishing Springer Nature B.V
Subjects	Aging Alloys Analysis Applied and Technical Physics Biomaterials Carbon Continuous casting Cooling Cooling rate Deterioration Diffusion Ductility Ductility tests Equilibrium Grain boundaries Heat treating Holes Impurities Inorganic Chemistry Materials Engineering Materials research Materials Science Mathematical analysis Nanotechnology Solution heat treatment Steel Steels Studies Sulfur content Temperature grain-boundary segregation hot ductility loss C–Mn steel impurities
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Abstract	The subject of hot ductility in C–Mn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss in hot ductility continues to be unclear. In the present paper, the experimental hot ductility data in C–Mn steels involve: (i) a ductility trough appears at a certain temperature when the sample is held for a certain time at various temperatures after cooling quickly from a higher temperature; (ii) the ductility healing phenomenon which occurs with the duration of holding time; (iii) the ductility deteriorates with the increase of temperature difference between solution treatment temperature and test temperature during a tensile test; (iv) a minimum ductility appears when samples are cooled from a higher temperature to a lower one at a certain cooling rate; and (v) the formation of cavities at grain boundaries during tests. All of these are analyzed and calculated from the perspective of thermally induced nonequilibrium grain-boundary segregation (TNGS). Based on our detailed analyses, the loss in hot ductility of C–Mn steels is ascribed to TNGS of impurities.
AbstractList	The subject of hot ductility in C–Mn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss in hot ductility continues to be unclear. In the present paper, the experimental hot ductility data in C–Mn steels involve: (i) a ductility trough appears at a certain temperature when the sample is held for a certain time at various temperatures after cooling quickly from a higher temperature; (ii) the ductility healing phenomenon which occurs with the duration of holding time; (iii) the ductility deteriorates with the increase of temperature difference between solution treatment temperature and test temperature during a tensile test; (iv) a minimum ductility appears when samples are cooled from a higher temperature to a lower one at a certain cooling rate; and (v) the formation of cavities at grain boundaries during tests. All of these are analyzed and calculated from the perspective of thermally induced nonequilibrium grain-boundary segregation (TNGS). Based on our detailed analyses, the loss in hot ductility of C–Mn steels is ascribed to TNGS of impurities. The subject of hot ductility in CMn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss in hot ductility continues to be unclear. In the present paper, the experimental hot ductility data in CMn steels involve: (i) a ductility trough appears at a certain temperature when the sample is held for a certain time at various temperatures after cooling quickly from a higher temperature; (ii) the ductility healing phenomenon which occurs with the duration of holding time; (iii) the ductility deteriorates with the increase of temperature difference between solution treatment temperature and test temperature during a tensile test; (iv) a minimum ductility appears when samples are cooled from a higher temperature to a lower one at a certain cooling rate; and (v) the formation of cavities at grain boundaries during tests. All of these are analyzed and calculated from the perspective of thermally induced nonequilibrium grain-boundary segregation (TNGS). Based on our detailed analyses, the loss in hot ductility of CMn steels is ascribed to TNGS of impurities.
Author	Zheng, Zongwen Yu, Hongyao Misra, R. Devesh K. Xu, Tingdong Liu, Zhenjun
Author_xml	– sequence: 1 givenname: Zongwen surname: Zheng fullname: Zheng, Zongwen email: zwzheng2013@163.com organization: Superalloy Department, Central Iron & Steel Research Institute, Beijing 100081, People's Republic of China – sequence: 2 givenname: Hongyao surname: Yu fullname: Yu, Hongyao organization: Superalloy Department, Central Iron & Steel Research Institute, Beijing 100081, People's Republic of China – sequence: 3 givenname: Zhenjun surname: Liu fullname: Liu, Zhenjun organization: Superalloy Department, Central Iron & Steel Research Institute, Beijing 100081, People's Republic of China – sequence: 4 givenname: Tingdong surname: Xu fullname: Xu, Tingdong organization: Superalloy Department, Central Iron & Steel Research Institute, Beijing 100081, People's Republic of China – sequence: 5 givenname: R. Devesh K. surname: Misra fullname: Misra, R. Devesh K. organization: † Department of Metallurgical and Materials Engineering, Center for Structural and Functional Materials Research and Innovation, University of Texas at El Paso, El Paso, Texas 79968, USA
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Snippet	The subject of hot ductility in C–Mn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss... The subject of hot ductility in C-Mn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss... The subject of hot ductility in CMn steels has been the focus of interest for a long time in materials science and engineering. However, the mechanism of loss...
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SubjectTerms	Aging Alloys Analysis Applied and Technical Physics Biomaterials Carbon Continuous casting Cooling Cooling rate Deterioration Diffusion Ductility Ductility tests Equilibrium Grain boundaries Heat treating Holes Impurities Inorganic Chemistry Materials Engineering Materials research Materials Science Mathematical analysis Nanotechnology Solution heat treatment Steel Steels Studies Sulfur content Temperature
Title	Mechanism of hot ductility loss in C–Mn steels based on nonequilibrium grain boundary segregation of impurities
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