Optimization of metallographic sample preparation for AFM/SKPFM based phase distinction of complex and dual phase high strength steels

Ines Traxler; Gabriela Schimo; Andreas Muhr; Christian Commenda; Abdellatif Jerrar; Raffaela Sagl; Klemens Mraczek; Darya Rudomilova; Gerald Luckeneder; Hubert Duchaczek; K.H. Stellnberger; Tomáš Prošek; Achim Walter Hassel; Sabine Hild

doi:10.1515/pm-2021-0024

Optimization of metallographic sample preparation for AFM/SKPFM based phase distinction of complex and dual phase high strength steels

Ines Traxler, Gabriela Schimo, Andreas Muhr, Christian Commenda, Abdellatif Jerrar, Raffaela Sagl, Klemens Mraczek, Darya Rudomilova, Gerald Luckeneder, Hubert Duchaczek, K.H. Stellnberger, Tomáš Prošek, Achim Walter Hassel, Sabine Hild

Research output: Contribution to journal › Article › peer-review

Abstract

For the comprehensive investigation of advanced high strength steel grades, like complex and dual phase steels, Atomic Force Microscopy (AFM) and Scanning Kelvin Probe Force Microscopy (SKPFM) have proven to be useful tools, especially for analysis of hydrogen permeability of the individual steel phases. However, for these studies a preparation route, exposing the microstructure of the steel, is necessary. Various sample preparation methods were examined, focusing on electropolishing and sputtering, and the selected route was optimized to guarantee reproducibility and stability of the prepared surface. Electropolishing was shown to be highly efficient to selectively reveal the individual steel phases without introducing strong topographical features disturbing the AFM measurements. A subsequent sputtering step was introduced to improve the stability and preservability of the surface up to several months. Finally, distinction of the steel phases via AFM/SKPFM, was complemented and compared with results from EBSD and XRD.

Original language	English
Pages (from-to)	308-331
Number of pages	24
Journal	Practical Metallography
Volume	58
Issue number	6
DOIs	https://doi.org/10.1515/pm-2021-0024
Publication status	Published - 2021

Fields of science

204 Chemical Process Engineering
205016 Materials testing
210006 Nanotechnology
104014 Surface chemistry
105113 Crystallography
105116 Mineralogy
204001 Inorganic chemical technology
211104 Metallurgy
104005 Electrochemistry
104006 Solid state chemistry
104017 Physical chemistry
503013 Subject didactics of natural sciences

JKU Focus areas

Sustainable Development: Responsible Technologies and Management

Access to Document

10.1515/pm-2021-0024

Cite this

Traxler, I., Schimo, G., Muhr, A., Commenda, C., Jerrar, A., Sagl, R., Mraczek, K., Rudomilova, D., Luckeneder, G., Duchaczek, H., Stellnberger, K. H., Prošek, T., Hassel, A. W., & Hild, S. (2021). Optimization of metallographic sample preparation for AFM/SKPFM based phase distinction of complex and dual phase high strength steels. Practical Metallography, 58(6), 308-331. https://doi.org/10.1515/pm-2021-0024

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title = "Optimization of metallographic sample preparation for AFM/SKPFM based phase distinction of complex and dual phase high strength steels",

abstract = "For the comprehensive investigation of advanced high strength steel grades, like complex and dual phase steels, Atomic Force Microscopy (AFM) and Scanning Kelvin Probe Force Microscopy (SKPFM) have proven to be useful tools, especially for analysis of hydrogen permeability of the individual steel phases. However, for these studies a preparation route, exposing the microstructure of the steel, is necessary. Various sample preparation methods were examined, focusing on electropolishing and sputtering, and the selected route was optimized to guarantee reproducibility and stability of the prepared surface. Electropolishing was shown to be highly efficient to selectively reveal the individual steel phases without introducing strong topographical features disturbing the AFM measurements. A subsequent sputtering step was introduced to improve the stability and preservability of the surface up to several months. Finally, distinction of the steel phases via AFM/SKPFM, was complemented and compared with results from EBSD and XRD.",

author = "Ines Traxler and Gabriela Schimo and Andreas Muhr and Christian Commenda and Abdellatif Jerrar and Raffaela Sagl and Klemens Mraczek and Darya Rudomilova and Gerald Luckeneder and Hubert Duchaczek and K.H. Stellnberger and Tom{\'a}{\v s} Pro{\v s}ek and Hassel, \{Achim Walter\} and Sabine Hild",

year = "2021",

doi = "10.1515/pm-2021-0024",

language = "English",

volume = "58",

pages = "308--331",

journal = "Practical Metallography",

issn = "2195-8599",

publisher = "Walter de Gruyter GmbH",

number = "6",

}

Traxler, I, Schimo, G, Muhr, A, Commenda, C, Jerrar, A, Sagl, R, Mraczek, K, Rudomilova, D, Luckeneder, G, Duchaczek, H, Stellnberger, KH, Prošek, T, Hassel, AW & Hild, S 2021, 'Optimization of metallographic sample preparation for AFM/SKPFM based phase distinction of complex and dual phase high strength steels', Practical Metallography, vol. 58, no. 6, pp. 308-331. https://doi.org/10.1515/pm-2021-0024

TY - JOUR

T1 - Optimization of metallographic sample preparation for AFM/SKPFM based phase distinction of complex and dual phase high strength steels

AU - Traxler, Ines

AU - Schimo, Gabriela

AU - Muhr, Andreas

AU - Commenda, Christian

AU - Jerrar, Abdellatif

AU - Sagl, Raffaela

AU - Mraczek, Klemens

AU - Rudomilova, Darya

AU - Luckeneder, Gerald

AU - Duchaczek, Hubert

AU - Stellnberger, K.H.

AU - Prošek, Tomáš

AU - Hassel, Achim Walter

AU - Hild, Sabine

PY - 2021

Y1 - 2021

N2 - For the comprehensive investigation of advanced high strength steel grades, like complex and dual phase steels, Atomic Force Microscopy (AFM) and Scanning Kelvin Probe Force Microscopy (SKPFM) have proven to be useful tools, especially for analysis of hydrogen permeability of the individual steel phases. However, for these studies a preparation route, exposing the microstructure of the steel, is necessary. Various sample preparation methods were examined, focusing on electropolishing and sputtering, and the selected route was optimized to guarantee reproducibility and stability of the prepared surface. Electropolishing was shown to be highly efficient to selectively reveal the individual steel phases without introducing strong topographical features disturbing the AFM measurements. A subsequent sputtering step was introduced to improve the stability and preservability of the surface up to several months. Finally, distinction of the steel phases via AFM/SKPFM, was complemented and compared with results from EBSD and XRD.

AB - For the comprehensive investigation of advanced high strength steel grades, like complex and dual phase steels, Atomic Force Microscopy (AFM) and Scanning Kelvin Probe Force Microscopy (SKPFM) have proven to be useful tools, especially for analysis of hydrogen permeability of the individual steel phases. However, for these studies a preparation route, exposing the microstructure of the steel, is necessary. Various sample preparation methods were examined, focusing on electropolishing and sputtering, and the selected route was optimized to guarantee reproducibility and stability of the prepared surface. Electropolishing was shown to be highly efficient to selectively reveal the individual steel phases without introducing strong topographical features disturbing the AFM measurements. A subsequent sputtering step was introduced to improve the stability and preservability of the surface up to several months. Finally, distinction of the steel phases via AFM/SKPFM, was complemented and compared with results from EBSD and XRD.

U2 - 10.1515/pm-2021-0024

DO - 10.1515/pm-2021-0024

M3 - Article

SN - 2195-8599

VL - 58

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EP - 331

JO - Practical Metallography

JF - Practical Metallography

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