Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669

Research output: Contribution to conferenceConference articleScientific

Abstract

Microstructural examinations were performed in order to test the hypothesis on the mechanism of initial shrinkage observed in the solution annealed 304L stainless steel tested in irradiation creep experiment IFA 669. Analytical transmission electron microscopy (ATEM) was utilized for second phase identification in the 2 dpa irradiated 304L stainless steel (SS) extracted from a tensile specimen (669-7). Observations from the irradiation creep test microstructure and the secondary phases found are presented and discussed.
Original languageEnglish
Publication statusPublished - 2016
Event39th Enlarged Halden Programme Group Meeting, EHPG 2016 - Fornebu, Norway
Duration: 8 May 201613 May 2016

Conference

Conference39th Enlarged Halden Programme Group Meeting, EHPG 2016
Abbreviated titleEHPG 2016
CountryNorway
CityFornebu
Period8/05/1613/05/16

Fingerprint

tensile creep
stainless steels
examination
creep tests
transmission electron microscopy
irradiation
shrinkage
microstructure

Keywords

  • PIE
  • TEM
  • irradition creep
  • austenitic stainless steel
  • 304

Cite this

Ivanchenko, M. (2016). Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669. Paper presented at 39th Enlarged Halden Programme Group Meeting, EHPG 2016, Fornebu, Norway.
Ivanchenko, Mykola. / Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669. Paper presented at 39th Enlarged Halden Programme Group Meeting, EHPG 2016, Fornebu, Norway.
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title = "Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669",
abstract = "Microstructural examinations were performed in order to test the hypothesis on the mechanism of initial shrinkage observed in the solution annealed 304L stainless steel tested in irradiation creep experiment IFA 669. Analytical transmission electron microscopy (ATEM) was utilized for second phase identification in the 2 dpa irradiated 304L stainless steel (SS) extracted from a tensile specimen (669-7). Observations from the irradiation creep test microstructure and the secondary phases found are presented and discussed.",
keywords = "PIE, TEM, irradition creep, austenitic stainless steel, 304",
author = "Mykola Ivanchenko",
note = "Project code: 108805 ; 39th Enlarged Halden Programme Group Meeting, EHPG 2016, EHPG 2016 ; Conference date: 08-05-2016 Through 13-05-2016",
year = "2016",
language = "English",

}

Ivanchenko, M 2016, 'Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669' Paper presented at 39th Enlarged Halden Programme Group Meeting, EHPG 2016, Fornebu, Norway, 8/05/16 - 13/05/16, .

Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669. / Ivanchenko, Mykola.

2016. Paper presented at 39th Enlarged Halden Programme Group Meeting, EHPG 2016, Fornebu, Norway.

Research output: Contribution to conferenceConference articleScientific

TY - CONF

T1 - Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669

AU - Ivanchenko, Mykola

N1 - Project code: 108805

PY - 2016

Y1 - 2016

N2 - Microstructural examinations were performed in order to test the hypothesis on the mechanism of initial shrinkage observed in the solution annealed 304L stainless steel tested in irradiation creep experiment IFA 669. Analytical transmission electron microscopy (ATEM) was utilized for second phase identification in the 2 dpa irradiated 304L stainless steel (SS) extracted from a tensile specimen (669-7). Observations from the irradiation creep test microstructure and the secondary phases found are presented and discussed.

AB - Microstructural examinations were performed in order to test the hypothesis on the mechanism of initial shrinkage observed in the solution annealed 304L stainless steel tested in irradiation creep experiment IFA 669. Analytical transmission electron microscopy (ATEM) was utilized for second phase identification in the 2 dpa irradiated 304L stainless steel (SS) extracted from a tensile specimen (669-7). Observations from the irradiation creep test microstructure and the secondary phases found are presented and discussed.

KW - PIE

KW - TEM

KW - irradition creep

KW - austenitic stainless steel

KW - 304

M3 - Conference article

ER -

Ivanchenko M. Microstructural TEM Examination of 2 dpa Irradiated 304L Stainless Steel Extracted from a Tensile Creep Specimen from IFA-669. 2016. Paper presented at 39th Enlarged Halden Programme Group Meeting, EHPG 2016, Fornebu, Norway.