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Magnetic Properties of Steel Ball Samples, Investigated before and after Nitriding

Fuks H., Kaczmarek S. M., Leniec G., Michalski J., Kucharska B., Wach P.

Archives of Metallurgy and Materials

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2018

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Vol. 63, iss. 3

1235--1242

EN

Group of steel balls with different chemical composition, diameters and nitriding treatment parameters were investigated with using magnetic resonance and magnetization methods. Emerging nitrided regions consists of diffusion and surface layer of iron nitrides. The thickness of the individual layers depends on the type of steel and process parameters. Resonance signal shape and position were successfully described in the ferromagnetic resonance regime expected for dense iron magnetic system. Influence of the sample size, thermal treatment and carbon content on the absorption signal has been analyzed. Significant magnetic anisotropy has been revealed, as well as non-usual increasing of the magnetization as a function of temperature. It suggests, that overall antiferromagnetic ordering, destroyed by thermal movement, lead to increasing of the ferromagnetic region.

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Magnetic characterization of microcrystalline Na3Ln0.99–xEr0.01Crx(PO4)2 orthophosphates synthesized by Pechini method (Ln = La, Gd)

Kaczmarek S. M., Leniec G., Fuks H., Skibiński T., Pelczarska A., Godlewska P., Hanuza J., Szczygieł I.

Materials Science Poland

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2017

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Vol. 35, No. 4

733--745

EN

Na3Ln(PO4)2 orthophosphates (Ln = La, Gd) doped with Er3+ and co-doped with Cr3+ ions were synthesized by Pechini method and characterized by electron paramagnetic resonance (EPR) and magnetic susceptibility measurements. Low temperature EPR spectra were detected and analyzed in terms of temperature dependence and the structure of the obtained materials. They show that erbium and chromium ions substitute Ln3+ and also Na+ ions or Na+ channels forming complex EPR spectra. Both kinds of ions reveal ferromagnetic type of interaction which shows some anomaly at the temperature between 10 K and 15 K. Magnetic susceptibility reveals a weak antiferromagnetic kind of interaction dominating in the whole temperature range, from 3.5 to 300 K.

3

The magnetic properties of steel after the gas nitriding process

Michalski J., Fuks H., Kaczmarek S. M., Leniec G., Kucharska B., Wach P.

Inżynieria Materiałowa

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2017

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Vol. 38, nr 4

170--176

EN

The paper presents the relationship between the chemical composition of the steel balls, their size and parameters of the nitriding process and magnetic properties defined in the study by EPR and SQUID. The balls made form non-alloyed AISI 1085 and alloyed AISI 420-C steels were investigated. At resonance spectra for both steels before the nitriding process, the resonance signal only existed for two magnetic induction values, 400 mT and 650 mT. This values are untypical because for magnetic centres in the form of iron ions, the expected EPR signal occurs usually in magnetic fields of approx. 340 mT, when the spectrometers operates in the so called microwave X band. This abnormality presumed that the resonance signals did not originate from isolated ions, but instead from magnetically more complex systems, e.g. Fe–Fe pairs or iron clusters, while the observed EPR line position is normally even lower and occurs for a magnetic induction below 200 mT. The fact, that the magnetic centres not had the nature of isolated Fe ions, additionally confirmed the abnormal increase in resonance signal intensity as a function of temperature, which is a behaviour inconsistent with the Curie-Weiss law. After nitriding the AISI 420-C steel in the Nx1021(580/600°C) process, the resonance line became distinctly wider and shifts towards greater magnetic induction values. After nitriding at a lower temperature (the Nx1025(490/520°C process), the resonance lines shifted towards greater magnetic induction values, but, at the same time, the line became more symmetric, closer to the shape of the Lorentz function derivative. The results obtained from measurements by the SQUID method, recording variations in magnetization as a function of temperature, confirm the untypical reinforcement of the magnetic conditions of the samples with the increase in temperature. For the samples tested, the magnetization was relatively weaker, when the tests were conducted in a stronger magnetic field.

PL

Podczas tworzenia się warstwy azotowanej na stali zmianom ulegają jej właściwości elektryczne (przewodność) oraz magnetyczne, wśród których najbardziej czułe na zmiany fazowe i strukturalne azotowanej stali są względna przenikalność magnetyczna i natężenie pola koercji magnetycznej. W pracy podjęto się zbadania relacji pomiędzy składem chemicznym, rozmiarem i parametrami procesu azotowania stalowych kulek a ich właściwościami magnetycznymi.