The role of microstructure on edge cracks in dual phase and quench and partitioning steels subject to severe cold rolling

Rolling edge cracks are characterized in a wide range of steels. Four different crack morphologies are identified. The propensity to cracking has an inverse relationship to the martensite content in dual phase steels, related to the interconnectivity of the martensite particles within the microstruc...

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Published inScripta materialia Vol. 173; pp. 86 - 90
Main Authors Samei, Javad, Salib, Youssef, Amirmaleki, Maedeh, Wilkinson, David S.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2019
Subjects
Dual phase steels
Edge crack
Microstructure
Quench and partitioning steels
Severe rolling
Quench and partitioning steels
Microstructure
Severe rolling
Dual phase steels
Edge crack
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ISSN1359-6462
1872-8456
DOI10.1016/j.scriptamat.2019.08.012

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Abstract Rolling edge cracks are characterized in a wide range of steels. Four different crack morphologies are identified. The propensity to cracking has an inverse relationship to the martensite content in dual phase steels, related to the interconnectivity of the martensite particles within the microstructure. An additional effect due to grain refinement is seen in dual phase steels which have the same martensite content but a factor of three difference in ferrite grain size. Quench and partitioning steels exhibit considerably lower resistance to edge cracking than dual phase steels due to the specific characteristics of the martensite in each steel. [Display omitted]
AbstractList Rolling edge cracks are characterized in a wide range of steels. Four different crack morphologies are identified. The propensity to cracking has an inverse relationship to the martensite content in dual phase steels, related to the interconnectivity of the martensite particles within the microstructure. An additional effect due to grain refinement is seen in dual phase steels which have the same martensite content but a factor of three difference in ferrite grain size. Quench and partitioning steels exhibit considerably lower resistance to edge cracking than dual phase steels due to the specific characteristics of the martensite in each steel. [Display omitted]
Author Amirmaleki, Maedeh
Salib, Youssef
Wilkinson, David S.
Samei, Javad
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Keywords Quench and partitioning steels
Microstructure
Severe rolling
Dual phase steels
Edge crack
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Snippet Rolling edge cracks are characterized in a wide range of steels. Four different crack morphologies are identified. The propensity to cracking has an inverse...
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SubjectTerms Dual phase steels
Edge crack
Microstructure
Quench and partitioning steels
Severe rolling
Title The role of microstructure on edge cracks in dual phase and quench and partitioning steels subject to severe cold rolling
URI https://dx.doi.org/10.1016/j.scriptamat.2019.08.012
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