Microstructure and phase investigation of FeCrAl-Y2O3 ODS steels with different Ti and V contents

•FeCrAl-Y2O3 ODS alloys were fabricated for applications in GenIV nuclear reactors.•The mechanically alloyed powders show good chemical homogeneity.•The spark plasma sintered samples reveal good densification and bcc phase matrix.•Nanometric reinforcing particles (15–50 nm) are homogeneously distrib...

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Vydáno v:Journal of nuclear materials Ročník 586; s. 154700
Hlavní autoři: Jasinski, Jaroslaw J., Stasiak, Tomasz, Chmurzynski, Wojciech, Kurpaska, Lukasz, Chmielewski, Marcin, Frelek-Kozak, Malgorzata, Wilczopolska, Magdalena, Mulewska, Katarzyna, Zielinski, Maciej, Kowal, Marcin, Diduszko, Ryszard, Chrominski, Witold, Jagielski, Jacek
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.12.2023
Témata:
Mechanical alloying
Microstructure
Nanoindentation
ODS steel
Spark plasma sintering
ODS steel
Spark plasma sintering
Microstructure
Mechanical alloying
Nanoindentation
ISSN:0022-3115, 1873-4820
On-line přístup:Získat plný text
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Abstract •FeCrAl-Y2O3 ODS alloys were fabricated for applications in GenIV nuclear reactors.•The mechanically alloyed powders show good chemical homogeneity.•The spark plasma sintered samples reveal good densification and bcc phase matrix.•Nanometric reinforcing particles (15–50 nm) are homogeneously distributed.•The alloy with the addition of vanadium shows improved mechanical properties. FeCrAl-based steels are considered promising materials for high-temperature nuclear applications. Over the past years, various compositions have been studied to assess their mechanical properties, structural integrity, and radiation damage resistance. However, the microstructure and phase composition of FeCrAl-ODS steels with the addition of different alloying elements are less commonly studied than pure FeCrAl alloys. The paper presents a novel research path for developing FeCrAl matrix ODS steels with Y2O3, Ti, and V additions. The materials synthesis consisted of mechanical alloying of pure metallic components with yttrium oxide in a planetary ball mill under an argon atmosphere. Titanium was added in the amount of 1.0 wt.% to both samples, while 0.5 wt.% of vanadium was added to one sample to verify its impact on the structural stability and hardness. The spark plasma sintering (SPS) technique was used to consolidate the powders. Afterward, the microstructure, chemical composition, phase composition, and hardness were assessed using SEM-EDS, EBSD, TEM-EDS, XRD, XRF, Nanoindentation, and Vickers microhardness. The experimental data reveal rather homogeneous powders after mechanical alloying and dense bulk samples after SPS. The microstructure observations show oxide particles and carbides on the grain boundaries and inside grains of the bcc matrix, which suggests elevated radiation damage resistance. The presence of nanoscale oxide particles (15–50 nm) in the matrix could significantly reduce the impact of aging embrittlement at high temperatures by affecting the chromium diffusion pathways in the ODS steel matrix. The addition of vanadium leads to an improvement of hardness to 4.83±0.43 GPa compared to 3.78±0.34 GPa for the sample without vanadium. Presented experimental results are promising in terms of research and development of FeCr and Al-based ODS materials tailored to operate under harsh conditions in generation IV fission reactors and fusion reactors. [Display omitted]
AbstractList •FeCrAl-Y2O3 ODS alloys were fabricated for applications in GenIV nuclear reactors.•The mechanically alloyed powders show good chemical homogeneity.•The spark plasma sintered samples reveal good densification and bcc phase matrix.•Nanometric reinforcing particles (15–50 nm) are homogeneously distributed.•The alloy with the addition of vanadium shows improved mechanical properties. FeCrAl-based steels are considered promising materials for high-temperature nuclear applications. Over the past years, various compositions have been studied to assess their mechanical properties, structural integrity, and radiation damage resistance. However, the microstructure and phase composition of FeCrAl-ODS steels with the addition of different alloying elements are less commonly studied than pure FeCrAl alloys. The paper presents a novel research path for developing FeCrAl matrix ODS steels with Y2O3, Ti, and V additions. The materials synthesis consisted of mechanical alloying of pure metallic components with yttrium oxide in a planetary ball mill under an argon atmosphere. Titanium was added in the amount of 1.0 wt.% to both samples, while 0.5 wt.% of vanadium was added to one sample to verify its impact on the structural stability and hardness. The spark plasma sintering (SPS) technique was used to consolidate the powders. Afterward, the microstructure, chemical composition, phase composition, and hardness were assessed using SEM-EDS, EBSD, TEM-EDS, XRD, XRF, Nanoindentation, and Vickers microhardness. The experimental data reveal rather homogeneous powders after mechanical alloying and dense bulk samples after SPS. The microstructure observations show oxide particles and carbides on the grain boundaries and inside grains of the bcc matrix, which suggests elevated radiation damage resistance. The presence of nanoscale oxide particles (15–50 nm) in the matrix could significantly reduce the impact of aging embrittlement at high temperatures by affecting the chromium diffusion pathways in the ODS steel matrix. The addition of vanadium leads to an improvement of hardness to 4.83±0.43 GPa compared to 3.78±0.34 GPa for the sample without vanadium. Presented experimental results are promising in terms of research and development of FeCr and Al-based ODS materials tailored to operate under harsh conditions in generation IV fission reactors and fusion reactors. [Display omitted]
ArticleNumber 154700
Author Chmielewski, Marcin
Chrominski, Witold
Kowal, Marcin
Chmurzynski, Wojciech
Zielinski, Maciej
Mulewska, Katarzyna
Frelek-Kozak, Malgorzata
Jagielski, Jacek
Stasiak, Tomasz
Diduszko, Ryszard
Jasinski, Jaroslaw J.
Kurpaska, Lukasz
Wilczopolska, Magdalena
Author_xml – sequence: 1
  givenname: Jaroslaw J.
  surname: Jasinski
  fullname: Jasinski, Jaroslaw J.
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 2
  givenname: Tomasz
  orcidid: 0000-0003-0251-1907
  surname: Stasiak
  fullname: Stasiak, Tomasz
  email: tomasz.stasiak@ncbj.gov.pl
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 3
  givenname: Wojciech
  orcidid: 0000-0003-1651-7875
  surname: Chmurzynski
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  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
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  givenname: Lukasz
  orcidid: 0000-0002-2970-4090
  surname: Kurpaska
  fullname: Kurpaska, Lukasz
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 5
  givenname: Marcin
  surname: Chmielewski
  fullname: Chmielewski, Marcin
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 6
  givenname: Malgorzata
  orcidid: 0000-0002-9264-1731
  surname: Frelek-Kozak
  fullname: Frelek-Kozak, Malgorzata
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 7
  givenname: Magdalena
  orcidid: 0000-0003-4157-4804
  surname: Wilczopolska
  fullname: Wilczopolska, Magdalena
  organization: National Centre for Nuclear Research, Centre of Excellence NOMATEN, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 8
  givenname: Katarzyna
  surname: Mulewska
  fullname: Mulewska, Katarzyna
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 9
  givenname: Maciej
  orcidid: 0000-0003-0760-1004
  surname: Zielinski
  fullname: Zielinski, Maciej
  organization: National Centre for Nuclear Research, Centre of Excellence NOMATEN, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 10
  givenname: Marcin
  surname: Kowal
  fullname: Kowal, Marcin
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 11
  givenname: Ryszard
  surname: Diduszko
  fullname: Diduszko, Ryszard
  organization: National Centre for Nuclear Research, Centre of Excellence NOMATEN, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 12
  givenname: Witold
  orcidid: 0000-0002-5345-7667
  surname: Chrominski
  fullname: Chrominski, Witold
  organization: National Centre for Nuclear Research, Centre of Excellence NOMATEN, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
– sequence: 13
  givenname: Jacek
  orcidid: 0000-0003-2525-2805
  surname: Jagielski
  fullname: Jagielski, Jacek
  organization: National Centre for Nuclear Research, Materials Research Laboratory, A. Soltana 7 St., 05-400 Otwock-Swierk, Poland
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Keywords ODS steel
Spark plasma sintering
Microstructure
Mechanical alloying
Nanoindentation
Language English
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Snippet •FeCrAl-Y2O3 ODS alloys were fabricated for applications in GenIV nuclear reactors.•The mechanically alloyed powders show good chemical homogeneity.•The spark...
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SubjectTerms Mechanical alloying
Microstructure
Nanoindentation
ODS steel
Spark plasma sintering
Title Microstructure and phase investigation of FeCrAl-Y2O3 ODS steels with different Ti and V contents
URI https://dx.doi.org/10.1016/j.jnucmat.2023.154700
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