Electrical and electrochemical behavior of a zinc-rich epoxy coating system with carbon nanotubes as a diode-like material
By Cho, Seongkoo; Chiu, Tse-Ming; Castaneda, Homero
Published in Electrochimica Acta
2019
Abstract
Non-conventional responses in the impedance spectra of a zinc-rich coating system were observed in electrical and electrochemical impedance measurements that have previously been considered to have no effect on the system. Despite the impressive progress in zinc-rich coating systems to control corrosion in metal structures through galvanic effects, some physical properties influencing the responses of electrochemical systems remain unexplored. Electrochemical and non-electrolytic cells on zinc-rich (55 vol%) coatings with multi-wall carbon nanotube systems were analyzed to determine the intrinsic response of the coating with electrical passive and active analogs under electrical conditioning cycles. In the dry condition, the impedance spectra of the carbon nanotube-added zinc-rich coating showed increased electrical resistance of the film under consecutive cyclic testing. The non-conventional response of the increase in impedance was studied by determining the impedance responses under various temperatures and bias potentials and performing a current-voltage method. The non-conventional phenomenon was found to be caused by an increased barrier height between the semiconducting zinc oxide material and metal, which is susceptible to an external electrical field. During immersion, the change in impedance of the zinc-rich primer (ZRP) film under consecutive electrochemical sequences differed from that under natural degradation. This non-conventional response of the ZRP coating was influenced by the applied bias potential. The capacitive behavior influenced by the zinc corrosion products in the coating had a longer relaxation time, thus decreasing the open circuit potential. To understand this phenomenon, we propose a charging-relaxation potential model. In addition, the potential exhibited a change in the electrical resistance of the ZRP film during consecutive electrochemical testing.
Microsoft is Ending Support for Windows 7
Microsoft will discontinue support for Windows 7 on January 14, 2020 which means Gamry will also be discontinuing support for Windows 7. If you are upgrading to Windows 10, like many companies and institutions, you need to be running Version 7 of our s oftware . Please note that only USB and Ethernet-based instruments can run in Version 7. Eligible users can download the latest version of our software through our online Client Portal .
If you haven't already registered your instrument, you can do so through the Client Portal .
Please email Technical Support if you have any questions regarding this transition. Please be sure to include your instrument model and serial number when contacting us.