New orientation relationship with low interfacial energy in MC/ferrite system observed in Nb-Ti bearing steel during isothermal quenching process

X. L. Li; X. T. Deng; C. S. Lei; Z. D. Wang

doi:10.1016/j.scriptamat.2019.01.008

New orientation relationship with low interfacial energy in MC/ferrite system observed in Nb-Ti bearing steel during isothermal quenching process

X. L. Li, X. T. Deng, C. S. Lei, Z. D. Wang

Northeastern University China

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Here we report a new crystallographic orientation relationship (OR) between MC-type carbide (M = metal) and ferrite matrix, observed in the specimen held isothermally at 600 °C for 20 min, named NEU-OR. The 〈110〉 _carbide //〈110〉 _ferrite alignment is the main difference from the well-known Baker–Nutting (BN) OR. NEU-OR is related to BN OR by the relative rotation of 45° about the zone axis of 〈110〉 _carbide . The interfacial energy between carbide and ferrite with NEU-OR is lower than that with BN OR based on semi-coherent dislocation theory, which benefits increases in the number density of precipitates.

Original language	English
Pages (from-to)	101-106
Number of pages	6
Journal	Scripta Materialia
Volume	163
DOIs	https://doi.org/10.1016/j.scriptamat.2019.01.008
State	Published - 1 Apr 2019
Externally published	Yes

Keywords

Crystal structure
Dislocation theory
High-strength low-alloy steels
Orientation relationship
Precipitation

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10.1016/j.scriptamat.2019.01.008

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title = "New orientation relationship with low interfacial energy in MC/ferrite system observed in Nb-Ti bearing steel during isothermal quenching process",

abstract = " Here we report a new crystallographic orientation relationship (OR) between MC-type carbide (M = metal) and ferrite matrix, observed in the specimen held isothermally at 600 °C for 20 min, named NEU-OR. The 〈110〉 carbide //〈110〉 ferrite alignment is the main difference from the well-known Baker–Nutting (BN) OR. NEU-OR is related to BN OR by the relative rotation of 45° about the zone axis of 〈110〉 carbide . The interfacial energy between carbide and ferrite with NEU-OR is lower than that with BN OR based on semi-coherent dislocation theory, which benefits increases in the number density of precipitates.",

keywords = "Crystal structure, Dislocation theory, High-strength low-alloy steels, Orientation relationship, Precipitation",

author = "Li, {X. L.} and Deng, {X. T.} and Lei, {C. S.} and Wang, {Z. D.}",

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doi = "10.1016/j.scriptamat.2019.01.008",

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T1 - New orientation relationship with low interfacial energy in MC/ferrite system observed in Nb-Ti bearing steel during isothermal quenching process

AU - Li, X. L.

AU - Deng, X. T.

AU - Lei, C. S.

AU - Wang, Z. D.

PY - 2019/4/1

Y1 - 2019/4/1

N2 - Here we report a new crystallographic orientation relationship (OR) between MC-type carbide (M = metal) and ferrite matrix, observed in the specimen held isothermally at 600 °C for 20 min, named NEU-OR. The 〈110〉 carbide //〈110〉 ferrite alignment is the main difference from the well-known Baker–Nutting (BN) OR. NEU-OR is related to BN OR by the relative rotation of 45° about the zone axis of 〈110〉 carbide . The interfacial energy between carbide and ferrite with NEU-OR is lower than that with BN OR based on semi-coherent dislocation theory, which benefits increases in the number density of precipitates.

AB - Here we report a new crystallographic orientation relationship (OR) between MC-type carbide (M = metal) and ferrite matrix, observed in the specimen held isothermally at 600 °C for 20 min, named NEU-OR. The 〈110〉 carbide //〈110〉 ferrite alignment is the main difference from the well-known Baker–Nutting (BN) OR. NEU-OR is related to BN OR by the relative rotation of 45° about the zone axis of 〈110〉 carbide . The interfacial energy between carbide and ferrite with NEU-OR is lower than that with BN OR based on semi-coherent dislocation theory, which benefits increases in the number density of precipitates.

KW - Crystal structure

KW - Dislocation theory

KW - High-strength low-alloy steels

KW - Orientation relationship

KW - Precipitation

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DO - 10.1016/j.scriptamat.2019.01.008

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JO - Scripta Materialia

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ER -

New orientation relationship with low interfacial energy in MC/ferrite system observed in Nb-Ti bearing steel during isothermal quenching process

Abstract

Keywords

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