Evolution of the Geometric Structure of X39Cr13 Steel upon Thermochemical Treatment Specific to Medical-Grade Steels

This paper presents the results of the multi-aspect surface characterization of X39Cr13 steel samples subjected to technological processes specific to medical instrumentation, such as heat and thermochemical treatment, as well as sterilization, which are implemented in corrosion resistance measureme...

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Published in	Lubricants Vol. 10; no. 6; p. 114
Main Authors	Gwoździk, Monika, Bramowicz, Mirosław, Kulesza, Sławomir
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.06.2022
Subjects	Biomedical materials Corrosion resistance Corrosion resistant steels Corrosion tests Fractal analysis Fractal geometry Fractals Geometry Heat Heat treatment Ion nitriding Mechanical properties Metals Nitrogen Numerical methods Plasma Production processes Properties Scanning electron microscopy Self-similarity SEM Stainless steel Steel Sterilization Structure Surface properties Topography Transplants & implants X39Cr13 steel Poland
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Abstract	This paper presents the results of the multi-aspect surface characterization of X39Cr13 steel samples subjected to technological processes specific to medical instrumentation, such as heat and thermochemical treatment, as well as sterilization, which are implemented in corrosion resistance measurements. The application of numerical methods of fractal analysis to averaged profiles obtained from SEM images resulted in double-log plots of structure function, from which the determination of the fractal parameters of interest was possible. The discussion was focused on the fractal dimension D, which governs relative height variations upon scaling in length, and corner frequency fc, which separates the scaling behavior of different-order structures (particles and their aggregates). The obtained results show that the heat treatment leaves behind a granular structure of steel (D2 = 2.43; fc2 = 1.97 nm), whereas corrosion tests reveal the appearance of pits (D1 = 2.17; fc1 = 0.303 nm; D2 = 2.59; fc2 = 4.76 nm). In turn, the ion nitriding improves the resistance of steel X39Cr13 to local corrosion. The fractal analysis also shows that the structure of the nitrided layer differs insignificantly from that of the untreated material, seen only as a shortening of the radius of the self-similarity area by a factor of two (fc2 = 1 nm).
AbstractList	This paper presents the results of the multi-aspect surface characterization of X39Cr13 steel samples subjected to technological processes specific to medical instrumentation, such as heat and thermochemical treatment, as well as sterilization, which are implemented in corrosion resistance measurements. The application of numerical methods of fractal analysis to averaged profiles obtained from SEM images resulted in double-log plots of structure function, from which the determination of the fractal parameters of interest was possible. The discussion was focused on the fractal dimension D, which governs relative height variations upon scaling in length, and corner frequency fc, which separates the scaling behavior of different-order structures (particles and their aggregates). The obtained results show that the heat treatment leaves behind a granular structure of steel (D2 = 2.43; fc2 = 1.97 nm), whereas corrosion tests reveal the appearance of pits (D1 = 2.17; fc1 = 0.303 nm; D2 = 2.59; fc2 = 4.76 nm). In turn, the ion nitriding improves the resistance of steel X39Cr13 to local corrosion. The fractal analysis also shows that the structure of the nitrided layer differs insignificantly from that of the untreated material, seen only as a shortening of the radius of the self-similarity area by a factor of two (fc2 = 1 nm). This paper presents the results of the multi-aspect surface characterization of X39Cr13 steel samples subjected to technological processes specific to medical instrumentation, such as heat and thermochemical treatment, as well as sterilization, which are implemented in corrosion resistance measurements. The application of numerical methods of fractal analysis to averaged profiles obtained from SEM images resulted in double-log plots of structure function, from which the determination of the fractal parameters of interest was possible. The discussion was focused on the fractal dimension D, which governs relative height variations upon scaling in length, and corner frequency f[sub.c], which separates the scaling behavior of different-order structures (particles and their aggregates). The obtained results show that the heat treatment leaves behind a granular structure of steel (D[sub.2] = 2.43; f[sub.c2] = 1.97 nm), whereas corrosion tests reveal the appearance of pits (D[sub.1] = 2.17; f[sub.c1] = 0.303 nm; D[sub.2] = 2.59; f[sub.c2] = 4.76 nm). In turn, the ion nitriding improves the resistance of steel X39Cr13 to local corrosion. The fractal analysis also shows that the structure of the nitrided layer differs insignificantly from that of the untreated material, seen only as a shortening of the radius of the self-similarity area by a factor of two (f[sub.c2] = 1 nm).
Audience	Academic
Author	Gwoździk, Monika Bramowicz, Mirosław Kulesza, Sławomir
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SubjectTerms	Biomedical materials Corrosion resistance Corrosion resistant steels Corrosion tests Fractal analysis Fractal geometry Fractals Geometry Heat Heat treatment Ion nitriding Mechanical properties Metals Nitrogen Numerical methods Plasma Production processes Properties Scanning electron microscopy Self-similarity SEM Stainless steel Steel Sterilization Structure Surface properties Topography Transplants & implants X39Cr13 steel
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Title	Evolution of the Geometric Structure of X39Cr13 Steel upon Thermochemical Treatment Specific to Medical-Grade Steels
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