刘希琴
Associate Professor
Education Level:上海医科大学
Degree:Master's Degree in Medicine
School/Department:College of Material Science and Technology
Discipline:Nuclear Technology and Applications. Material Science
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Affiliation of Author(s):材料科学与技术学院
Journal:Cailiao Daobao/Mater. Rev.
Abstract:The effect of normalizing process on evolution of microstructures and tensile properties of cold-rolled low-alloy cryogenic steel plate was investigated by tensile test, microhardness test, OM, SEM and TEM. The results showed that the cold-rolled samples were in recovery when the heat treatment temperature was 700℃, and the dislocations in ferrite matrix featured severe tangles configuration or grid structure. As the normalizing temperature increased to 750℃ and 800℃, recrystallization and phase transformation processes occurred simultaneously, and formed granular structure characterized by M/A islands. The microstructure of 860℃ normalized sample was composed of equiaxed ferrite and dispersed pearlite, and dislocations were sparse dislocation wall configuration. The ferrite grain size of cold-rolled sample with 23% reduction rate after 860℃ normalizing was refined to 10.2 μm, while that of cold-rolled sample with 10% reduction rate was 12.0 μm. The optimal combination of strength and ductility was obtained at the normalizing temperature of 860℃, and the product of strength and ductility were 20007 MPa% and 17850 MPa% for the cold-rolled samples with 10% and 23% reduction rate, respectively. Compared with that of 700℃ normalized sample, the number of microvoids near tensile fracture and necking zone in 860℃ normalized sample reduced significantly, indicating the improvement of tensile deformation ability. © 2017, Materials Review Magazine. All right reserved.
ISSN No.:1005-023X
Translation or Not:no
Date of Publication:2017-03-25
Co-author:周双双,Liu Zili,侯志国,田青超
Correspondence Author:lxq