Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing

Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing

Degradation of nuclear pressure vessel steel materials, 15Kh2NMFA type and A508 Cl2 type (definition is given in the text) were investigated by a novel magnetic nondestructive testing method, so-called Magnetic Adaptive Testing (MAT), which is based on systematic measurement and evaluation of minor...

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Main Authors: Gábor Vértesy, Antal Gasparics, Ildikó Szenthe, Ferenc Gillemot, Inge Uytdenhouwen
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Materials
Subjects:
steel degradation
nuclear reactor pressure vessel
magnetic nondestructive evaluation
magnetic adaptive testing
Online Access:https://www.mdpi.com/1996-1944/12/6/963
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spelling doaj-424b05d99dcb4e498d3aa82b30dff25b2020-11-25T00:50:21ZengMDPI AGMaterials1996-19442019-03-0112696310.3390/ma12060963ma12060963Inspection of Reactor Steel Degradation by Magnetic Adaptive TestingGábor Vértesy0Antal Gasparics1Ildikó Szenthe2Ferenc Gillemot3Inge Uytdenhouwen4Hungarian Academy of Sciences, Centre for Energy Research, 1121 Budapest, HungaryHungarian Academy of Sciences, Centre for Energy Research, 1121 Budapest, HungaryHungarian Academy of Sciences, Centre for Energy Research, 1121 Budapest, HungaryHungarian Academy of Sciences, Centre for Energy Research, 1121 Budapest, HungarySCK•CEN Belgian Nuclear Research Centre, 2400 Mol, BelgiumDegradation of nuclear pressure vessel steel materials, 15Kh2NMFA type and A508 Cl2 type (definition is given in the text) were investigated by a novel magnetic nondestructive testing method, so-called Magnetic Adaptive Testing (MAT), which is based on systematic measurement and evaluation of minor magnetic hysteresis loops. The measured samples were thermally treated by a special step cooling procedure, which generated structural changes in the material. It was found that this type of degradation can be easily followed by magnetic measurements. Charpy impact test were also performed and the results were compared with the magnetic parameters. In case of 15Kh2NMFA steel, a good, reliable and closely linear correlation was found between magnetic descriptors and transition temperature.https://www.mdpi.com/1996-1944/12/6/963steel degradationnuclear reactor pressure vesselmagnetic nondestructive evaluationmagnetic adaptive testing
collection DOAJ
language English
format Article
sources DOAJ
author Gábor Vértesy
Antal Gasparics
Ildikó Szenthe
Ferenc Gillemot
Inge Uytdenhouwen
spellingShingle Gábor Vértesy
Antal Gasparics
Ildikó Szenthe
Ferenc Gillemot
Inge Uytdenhouwen
Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing
Materials
steel degradation
nuclear reactor pressure vessel
magnetic nondestructive evaluation
magnetic adaptive testing
author_facet Gábor Vértesy
Antal Gasparics
Ildikó Szenthe
Ferenc Gillemot
Inge Uytdenhouwen
author_sort Gábor Vértesy
title Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing
title_short Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing
title_full Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing
title_fullStr Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing
title_full_unstemmed Inspection of Reactor Steel Degradation by Magnetic Adaptive Testing
title_sort inspection of reactor steel degradation by magnetic adaptive testing
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2019-03-01
description Degradation of nuclear pressure vessel steel materials, 15Kh2NMFA type and A508 Cl2 type (definition is given in the text) were investigated by a novel magnetic nondestructive testing method, so-called Magnetic Adaptive Testing (MAT), which is based on systematic measurement and evaluation of minor magnetic hysteresis loops. The measured samples were thermally treated by a special step cooling procedure, which generated structural changes in the material. It was found that this type of degradation can be easily followed by magnetic measurements. Charpy impact test were also performed and the results were compared with the magnetic parameters. In case of 15Kh2NMFA steel, a good, reliable and closely linear correlation was found between magnetic descriptors and transition temperature.
topic steel degradation
nuclear reactor pressure vessel
magnetic nondestructive evaluation
magnetic adaptive testing
url https://www.mdpi.com/1996-1944/12/6/963
work_keys_str_mv AT gaborvertesy inspectionofreactorsteeldegradationbymagneticadaptivetesting
AT antalgasparics inspectionofreactorsteeldegradationbymagneticadaptivetesting
AT ildikoszenthe inspectionofreactorsteeldegradationbymagneticadaptivetesting
AT ferencgillemot inspectionofreactorsteeldegradationbymagneticadaptivetesting
AT ingeuytdenhouwen inspectionofreactorsteeldegradationbymagneticadaptivetesting
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