Yinglv Jiang, Yinshun Wu, and Hong Chu, An improvement to the data processing course of electrochemical impedance technique, J. Univ. Sci. Technol. Beijing, 10(2003), No. 6, pp. 57-60.
Cite this article as:
Yinglv Jiang, Yinshun Wu, and Hong Chu, An improvement to the data processing course of electrochemical impedance technique, J. Univ. Sci. Technol. Beijing, 10(2003), No. 6, pp. 57-60.
Yinglv Jiang, Yinshun Wu, and Hong Chu, An improvement to the data processing course of electrochemical impedance technique, J. Univ. Sci. Technol. Beijing, 10(2003), No. 6, pp. 57-60.
Citation:
Yinglv Jiang, Yinshun Wu, and Hong Chu, An improvement to the data processing course of electrochemical impedance technique, J. Univ. Sci. Technol. Beijing, 10(2003), No. 6, pp. 57-60.
For some electrochemical systems the traditional data processing methods can not be met, so it is necessary to develop a new method to deal with these problems. When processing the electrochemical AC impedance data of titanium alloy TAl2 in 3% NaCl solution (at free corrosion potential, room temperature) a new method is developed which can detach the information of the interface resistance demonstrably from the interface capacitance. The results show that the interface resistance and capacitance are all functions of frequency. And the AC impedance of the resistance and capacitance obey the following relations:C(f)=104.01982f-0.9292,R(f)=104.80011 (f+0.008)-0.90897, which is completely different from the traditional conception that the interface resistance and capacitance are constants. And this phenomenon is ubiquitous in titanium alloys according to the study. So perhaps it is an innate characteristic of interface.
For some electrochemical systems the traditional data processing methods can not be met, so it is necessary to develop a new method to deal with these problems. When processing the electrochemical AC impedance data of titanium alloy TAl2 in 3% NaCl solution (at free corrosion potential, room temperature) a new method is developed which can detach the information of the interface resistance demonstrably from the interface capacitance. The results show that the interface resistance and capacitance are all functions of frequency. And the AC impedance of the resistance and capacitance obey the following relations:C(f)=104.01982f-0.9292,R(f)=104.80011 (f+0.008)-0.90897, which is completely different from the traditional conception that the interface resistance and capacitance are constants. And this phenomenon is ubiquitous in titanium alloys according to the study. So perhaps it is an innate characteristic of interface.