An electrochemical noise study of tribocorrosion processes of AISI 304 L in Cl− and media

Electrochemical noise measurements were performed to investigate the intrinsically stochastic character of the tribocorrosion process. Unidirectional sliding tests (pin-on-disc) were performed using AISI 304L stainless steel sliding against corundum. Experiments were carried out in Cl- and containin...

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Veröffentlicht in:	Journal of physics. D, Applied physics Applied physics, 2006-08, Vol.39 (15), p.3184-3192
Hauptverfasser:	Berradja, A, Déforge, D, Nogueira, R P, Ponthiaux, P, Wenger, F, Celis, J-P
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container_title	Journal of physics. D, Applied physics
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creator	Berradja, A Déforge, D Nogueira, R P Ponthiaux, P Wenger, F Celis, J-P
description	Electrochemical noise measurements were performed to investigate the intrinsically stochastic character of the tribocorrosion process. Unidirectional sliding tests (pin-on-disc) were performed using AISI 304L stainless steel sliding against corundum. Experiments were carried out in Cl- and containing media under open-circuit and potentiostatic polarization conditions. The power spectral density (PSD) of the current and potential signals showed a strong dependence on the sliding frequency but did not depend significantly on the normal load between 5 and 20 N. The fluctuations of the tangential and normal loads were also recorded, and a critical comparison between the PSD of the electrochemical response and the PSD of the mechanical solicitation (load) is proposed. At high frequencies (f > 0.1 Hz), the PSD of current or potential fluctuations have significantly different shapes than the PSD of load signals: the electrochemical signal PSD is governed by the dynamic balance between local depassivation and repassivation which only depends on the kinetics of the electrochemical phenomena. For lower frequencies, a plateau is observed for both the electrochemical PSD and the load PSD. The electrochemical signal is then governed by the continuous depassivation induced by sliding which appears as a low frequency component. These results suggest that the electrochemical noise technique investigated in the frequency domain might be a promising electrochemical tool for successfully unfolding tribocorrosion signatures for material parings in sliding-corrosion tests.
doi_str_mv	10.1088/0022-3727/39/15/S08
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title	An electrochemical noise study of tribocorrosion processes of AISI 304 L in Cl− and media
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