Nanostructured layer formed on CP-Ti by plasma electrolysis (effect of voltage and duty cycle of cathodic/anodic direction)

The present work reports the usage of nanocrystalline plasma electrolytic saturation (PES) by applying pulsed current in an organic electrolyte based on Glycerol. Response surface methodology was applied to optimize the operating conditions for small nanocrystallite sizes of coatings. The levels stu...

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Veröffentlicht in:	Materials chemistry and physics 2009-02, Vol.113 (2), p.607-612
Hauptverfasser:	Aliofkhazraei, M., Sabour Rouhaghdam, A., Heydarzadeh, A., Elmkhah, H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Electron microscopy (STEM Nanostructures Plasma electrolysis Response surface methodology (RSM) TEM and SEM
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container_title	Materials chemistry and physics
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creator	Aliofkhazraei, M. Sabour Rouhaghdam, A. Heydarzadeh, A. Elmkhah, H.
description	The present work reports the usage of nanocrystalline plasma electrolytic saturation (PES) by applying pulsed current in an organic electrolyte based on Glycerol. Response surface methodology was applied to optimize the operating conditions for small nanocrystallite sizes of coatings. The levels studied were peak of applied cathodic voltage range between 500 and 700 V, peak of applied anodic voltage between 200 and 400 V and the ratio of duty cycle of cathodic direction to duty cycle of anodic direction at 0.25–0.35. The usage of high applied cathodic voltages and low anodic voltages and also low ratio of duty cycle of cathodic direction to duty cycle of anodic direction is more suitable for achieving lower sizes of complex nanocrystallites. The samples with high height to width ratio of distribution curves of nanocrystallites have simultaneously, smaller average sizes and lower length to diameter ratio of nanocrystallites.
doi_str_mv	10.1016/j.matchemphys.2008.08.022
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subjects	Electron microscopy (STEM Nanostructures Plasma electrolysis Response surface methodology (RSM) TEM and SEM
title	Nanostructured layer formed on CP-Ti by plasma electrolysis (effect of voltage and duty cycle of cathodic/anodic direction)
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