Effects of Volume Fraction and Carbon Concentration of Austenite on Formation of Ultrafine Grained Ferrite/Austenite Duplex Microstructure by Warm Compression
スポンサーリンク
概要
- 論文の詳細を見る
The microstructures of two high-nickel martensite steels with different carbon contents before and after warm compression were comparably investigated by using a field-emission scanning electron microscope attached with an electron backscattering diffraction equipment (FE-SEM/EBSD) and a transmission electron microscope attached with an energy dispersive X-ray spectroscope (TEM/EDX). The microstructure observations suggest that the carbon addition is beneficial to reduce the critical strain for full recrystallization during warm compression and the increment of carbon-enriched austenite amount accelerates the dynamic recrystallization of ferrite through plastic deformation partitioning in the 17Ni–0.2C martensite steel. Proper pre-tempering promotes the precipitation of the carbon- and nickel-enriched austenite, and then promotes the dynamic recrystallization. On the other hand, long-time tempering leads to the carbon depletion in austenite so as to delay the dynamic recrystallization. The full recrystallization of the 18Ni martensite steel takes place at a higher strain during warm compression, mainly because of no carbon-enriched austenite.
- 社団法人 日本鉄鋼協会の論文
- 2008-11-15
著者
-
Tomota Yo
Graduate School of Science and Engineering/Frontier Research Center on Atomic Science, Ibaraki Unive
-
Tomota Yo
Graduate School Of Science And Engineering Ibaraki University
-
Tomota Yo
Ibaraki University
-
Xu Pingguang
Graduate School Of Science And Engineering Ibaraki University
-
LI Jianhong
Graduate School of Science and Engineering, Ibaraki University
-
ADACHI Yoshitaka
Innovative Materials Engineering Laboratory, National Institute for Materials Science
-
Li Jianhong
Graduate School Of Science And Engineering Ibaraki University
-
Tomota Yo
Graduate School Of Sci. And Engineering/frontier Res. Center On Atomic Sci. Ibaraki Univ.
-
Adachi Yoshitaka
Innovative Materials Engineering Laboratory National Institute For Materials Science
関連論文
- Tensile Behavior of a TRIP-aided Ultra-fine Grained Steel Studied by Neutron Diffraction
- Flow Stress Analysis using the Kocks-Mecking Model for Ferrite-Cementite Steels with Various Ferrite Grain Sizes
- Effects of Volume Fraction and Carbon Concentration of Austenite on Formation of Ultrafine Grained Ferrite/Austenite Duplex Microstructure by Warm Compression
- Dynamic Recrystallization Behavior in a Low-carbon Martensite Steel by Warm Compression
- Dynamic Recrystallization and Dynamic Precipitation Behaviors of a 17Ni-0.2C Martensite Steel Studied by In Situ Neutron Diffraction
- Heterogeneous Deformation Behavior Studied by in Situ Neutron Diffraction during Tensile Deformation for Ferrite, Martensite and Pearlite Steels
- Compression Behavior of Bulk Cementite Produced by Mechanical Alloying Method
- Crystallography and Kinetics of Dynamic Transformation in Steels
- Coherent-to-Incoherent Transition of Intergranular bcc-precipitates by Pre-/Post-deformations in a Ni-43Cr Alloy
- Tensile Behavior of a TRIP-aided Ultra-fine Grained Steel Studied by Neutron Diffraction
- High Tensile Strength of Low-Carbon Ferritic Steel Subjected to Severe Drawing
- 410 Residual Stress in a Drawn Pearlitic Steel Wire
- Tensile Behavior of Fine-grained Steels
- Hydrogen Behavior in an Ultrafine-Grained Electrodeposited Pure Iron
- Quantitative Analysis of Inclusions in Low Carbon Free Cutting Steel Using Small-angle X-ray and Neutron Scattering
- Quantitative Analysis of Inclusions in Low Carbon Free Cutting Steel Using Small-angle X-ray and Neutron Scattering
- Topological Approach to Ferrite/Martensite Dual-phase Microstructures