Comparative study of eddy current and Barkhausen noise nondestructive testing methods in microstructural examination of ferrite–martensite dual-phase steel
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, , , , ,Year
: 2014
Abstract: The magnetic properties of ferrite–martensite dual-phase steels were evaluated using eddy current and Barkhausen noise nondestructive testing methods and correlated with their microstructural changes. Several routes were used to produce different microstructures of dual-phase steels. The first route was different heat treatments in γ region to vary the ferrite grain size (from 9.47 to 11.12 in ASTM number), and the second one was variation in intercritical annealing temperatures (from 750 to 890 °C) in order to produce different percentages of martensite in dual-phase microstructure. The results concerning magnetic Barkhausen noise are discussed in terms of height, position and shape of Barkhausen noise profiles, taking into account two main aspects: ferrite grain size, and different percentages of martensite. Then, eddy current testing was used to study the mentioned microstructural changes by detection of impedance variations. The obtained results show that microstructural changes have a noticeable effect on the magnetic properties of dual-phase steels. The results reveal that both magnetic methods have a high potential to be used as a reliable nondestructive tool to detect and monitor microstructural changes occurring during manufacturing of dual-phase steels.
Keyword(s): Barkhausen noise,Dual phasesteel,Eddy currenttesting,Microstructure,Nondestructivetesting
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Comparative study of eddy current and Barkhausen noise nondestructive testing methods in microstructural examination of ferrite–martensite dual-phase steel
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contributor author | صادق قانعی | en |
contributor author | مهرداد کاشفی تربتی | en |
contributor author | محمد مزینانی | en |
contributor author | Sadegh Ghanei | fa |
contributor author | Mehrdad Kashefi Torbati | fa |
contributor author | Mohammad Mazinani | fa |
date accessioned | 2020-06-06T13:17:01Z | |
date available | 2020-06-06T13:17:01Z | |
date issued | 2014 | |
identifier uri | https://libsearch.um.ac.ir:443/fum/handle/fum/3348919?locale-attribute=en | |
description abstract | The magnetic properties of ferrite–martensite dual-phase steels were evaluated using eddy current and Barkhausen noise nondestructive testing methods and correlated with their microstructural changes. Several routes were used to produce different microstructures of dual-phase steels. The first route was different heat treatments in γ region to vary the ferrite grain size (from 9.47 to 11.12 in ASTM number), and the second one was variation in intercritical annealing temperatures (from 750 to 890 °C) in order to produce different percentages of martensite in dual-phase microstructure. The results concerning magnetic Barkhausen noise are discussed in terms of height, position and shape of Barkhausen noise profiles, taking into account two main aspects: ferrite grain size, and different percentages of martensite. Then, eddy current testing was used to study the mentioned microstructural changes by detection of impedance variations. The obtained results show that microstructural changes have a noticeable effect on the magnetic properties of dual-phase steels. The results reveal that both magnetic methods have a high potential to be used as a reliable nondestructive tool to detect and monitor microstructural changes occurring during manufacturing of dual-phase steels. | en |
language | English | |
title | Comparative study of eddy current and Barkhausen noise nondestructive testing methods in microstructural examination of ferrite–martensite dual-phase steel | en |
type | Journal Paper | |
contenttype | External Fulltext | |
subject keywords | Barkhausen noise | en |
subject keywords | Dual phasesteel | en |
subject keywords | Eddy currenttesting | en |
subject keywords | Microstructure | en |
subject keywords | Nondestructivetesting | en |
journal title | Journal of Magnetism and Magnetic Materials | fa |
pages | 103-110 | |
journal volume | 356 | |
journal issue | 0 | |
identifier link | https://profdoc.um.ac.ir/paper-abstract-1039908.html | |
identifier articleid | 1039908 |