TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels
Quenching and tempering are mostly employed to tune the mechanical properties of the high-carbon steels. In the present study, transmission electron microscopy (TEM) and selected area electron diffraction (SAED) are used to examine the microstructural evolution in quenched and tempered high carbon s...
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AIP Publishing LLC
2019-04-01
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| Series: | AIP Advances |
| Online Access: | http://dx.doi.org/10.1063/1.5091847 |
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doaj-fac1c30899b1406da861fd4342bdeafe2020-11-25T03:26:43ZengAIP Publishing LLCAIP Advances2158-32262019-04-0194045219045219-810.1063/1.5091847073904ADVTEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steelsTianwei Liu0Tong Li1Xingfa Liu2State Key Laboratory of Nonlinear Mechanics, Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, ChinaState Key Laboratory of Nonlinear Mechanics, Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, ChinaState Key Laboratory of Nonlinear Mechanics, Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, ChinaQuenching and tempering are mostly employed to tune the mechanical properties of the high-carbon steels. In the present study, transmission electron microscopy (TEM) and selected area electron diffraction (SAED) are used to examine the microstructural evolution in quenched and tempered high carbon steels. In quenched specimens, the ω-Fe(C) phase is a common substructure in twinned martensite and its diffraction spots are located at 1/3 and 2/3 (21¯1)α-Fe positions along the [011]α-Fe zone axis (ZA). When specimens are in-situ heated in TEM, few additional diffraction spots are observed at 1/6, 3/6 and 5/6 (21¯1)α-Fe positions along the [011]α-Fe ZA. Moreover, martensite decomposes into a lamellar structure and ω-Fe(C) phase transforms into θ-Fe3C cementite during tempering. The TEM and electron diffraction analysis reveals that diffraction spots of θ-Fe3C cementite phase are located at 1/6, 2/6, 3/6, 4/6 and 5/6 (222¯)α-Fe and (21¯1)α-Fe along [112]α-Fe and [011]α-Fe ZAs. Furthermore, the orientation relationships between θ-Fe3C cementite and α-Fe are indexed as: [013]θ//[112]α-Fe, [001]θ//[011]α-Fe, [1¯13]θ//[111]α-Fe and [1¯02]θ//[131]α-Fe, which are related to the transformation of ω-Fe to θ-Fe3C cementite. The current study provides a baseline to understand the microstructural evolution in high carbon steels during heat treatment processes.http://dx.doi.org/10.1063/1.5091847 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Tianwei Liu Tong Li Xingfa Liu |
| spellingShingle |
Tianwei Liu Tong Li Xingfa Liu TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels AIP Advances |
| author_facet |
Tianwei Liu Tong Li Xingfa Liu |
| author_sort |
Tianwei Liu |
| title |
TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels |
| title_short |
TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels |
| title_full |
TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels |
| title_fullStr |
TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels |
| title_full_unstemmed |
TEM and electron diffraction analysis of ω-Fe to cementite transformation in quenched and tempered high carbon steels |
| title_sort |
tem and electron diffraction analysis of ω-fe to cementite transformation in quenched and tempered high carbon steels |
| publisher |
AIP Publishing LLC |
| series |
AIP Advances |
| issn |
2158-3226 |
| publishDate |
2019-04-01 |
| description |
Quenching and tempering are mostly employed to tune the mechanical properties of the high-carbon steels. In the present study, transmission electron microscopy (TEM) and selected area electron diffraction (SAED) are used to examine the microstructural evolution in quenched and tempered high carbon steels. In quenched specimens, the ω-Fe(C) phase is a common substructure in twinned martensite and its diffraction spots are located at 1/3 and 2/3 (21¯1)α-Fe positions along the [011]α-Fe zone axis (ZA). When specimens are in-situ heated in TEM, few additional diffraction spots are observed at 1/6, 3/6 and 5/6 (21¯1)α-Fe positions along the [011]α-Fe ZA. Moreover, martensite decomposes into a lamellar structure and ω-Fe(C) phase transforms into θ-Fe3C cementite during tempering. The TEM and electron diffraction analysis reveals that diffraction spots of θ-Fe3C cementite phase are located at 1/6, 2/6, 3/6, 4/6 and 5/6 (222¯)α-Fe and (21¯1)α-Fe along [112]α-Fe and [011]α-Fe ZAs. Furthermore, the orientation relationships between θ-Fe3C cementite and α-Fe are indexed as: [013]θ//[112]α-Fe, [001]θ//[011]α-Fe, [1¯13]θ//[111]α-Fe and [1¯02]θ//[131]α-Fe, which are related to the transformation of ω-Fe to θ-Fe3C cementite. The current study provides a baseline to understand the microstructural evolution in high carbon steels during heat treatment processes. |
| url |
http://dx.doi.org/10.1063/1.5091847 |
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