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Investigation of processing–microstructure–property relationship using hot compression of a cone-shaped specimen |
Wan-hui Huang1, Pan Zeng1, Li-ping Lei1 |
1 Department of Mechanical Engineering, Tsinghua University, Beijing 100084, China |
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Abstract Gradient microstructure of the specimen was achieved by applying gradient thermoplastic deformation via electric resistance heating and hot compression of the cone-shaped specimen. A numerical modeling and experiment tests are conducted to investigate the microstructure evolution and mechanical properties in different regions of the specimen subjected to the gradient process parameters. Microstructure analysis revealed a direct relationship between the grain size and processing parameters. The temperature distribution on the gradient specimen ranges from about 800 to 1110 °C and equivalent strain along the axis of symmetry of the specimen section ranges from about 0.1 to 1.2. Under a temperature of 1050 °C and the equivalent strain of 0.7, the middle region of the specimen section has fine and equiaxed prior-austenitic grains with an average size of (27 ± 11) μm. Corresponding to the processing parameters, the lath martensite variants microstructure in this position with the highest hardness of (946 ± 17) HV. Consequently, the linkages among hot compression parameters, microstructure, and material properties of hardness are established via a high-throughput method in a cone-shaped specimen.
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Received: 11 July 2019
Published: 25 August 2020
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Cite this article: |
Wan-hui Huang,Pan Zeng,Li-ping Lei. Investigation of processing–microstructure–property relationship using hot compression of a cone-shaped specimen[J]. Journal of Iron and Steel Research International, 2020, 27(8): 922-932.
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