STUDY THE EFFECT OF DIFFERENT ELECTRODES, SUSPENSION CONDUCTIVITY AND CELL RESISTIVITY, ON YIELD OF EPD IN NANO ALUMINA SUSPENSION

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MILANI MOSTAFA; MIRKAZEMI SEYED MOHAMMAD; ZAHRAEE SEYED MOHAMMAD

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Journal: JOURNAL OF ADVANCED MATERIALS AND TECHNOLOGIES Year:2016 | Volume:5 | Issue:3 Page(s): 1-9

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Title

STUDY THE EFFECT OF DIFFERENT ELECTRODES, SUSPENSION CONDUCTIVITY AND CELL RESISTIVITY, ON YIELD OF EPD IN NANO ALUMINA SUSPENSION

Author(s)

MILANI MOSTAFA | MIRKAZEMI SEYED MOHAMMAD | ZAHRAEE SEYED MOHAMMAD | Issue Writer Certificate

Keywords

KINETIC EQUATIONSQ2

ALUMINA NANO POWDERQ3

SUSPENSION CONDUCTIVITYQ2

CELL RESISTIVITYQ2

ELECTROPHORETIC DEPOSITIONQ2

Abstract

Electrophoretic deposition process as a high-speed process of ceramic body shaping has received great attention in recent years. SUSPENSION CONDUCTIVITY and electrical resistance of the EPD cell as two main parameters in the expression of various kinetic models have been influential. Electrical variation in suspension and deposit had more attraction to change these parameters. While electrodes as a part of electrical system could change conductivity and resistivity. Present study is an endeavor to highlight less mentioned parameter, an electrode material, which could change the EPD models. The experiments were carried out based on aluminum, titanium, stainless steel, copper and graphite electrodes and ALUMINA NANO POWDERs. The experiments have shown that the anode material (in cathode deposition) could change EPD models' constants and graphite anodes have same deposition weight in experiment and model. While anodizing of aluminum, with presence of electrical current, deviated results to 0.35. Conductivity based models can predict yield of process better than resistivity based models, since less influencing from electrode material and resistivity of cell. So, we developed a new model based on Ferrari et al.'s model.

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APA: Copy

MILANI, MOSTAFA, MIRKAZEMI, SEYED MOHAMMAD, & ZAHRAEE, SEYED MOHAMMAD. (2016). STUDY THE EFFECT OF DIFFERENT ELECTRODES, SUSPENSION CONDUCTIVITY AND CELL RESISTIVITY, ON YIELD OF EPD IN NANO ALUMINA SUSPENSION. JOURNAL OF ADVANCED MATERIALS AND TECHNOLOGIES, 5(3), 1-9. SID. https://sid.ir/paper/252494/en

Vancouver: Copy

MILANI MOSTAFA, MIRKAZEMI SEYED MOHAMMAD, ZAHRAEE SEYED MOHAMMAD. STUDY THE EFFECT OF DIFFERENT ELECTRODES, SUSPENSION CONDUCTIVITY AND CELL RESISTIVITY, ON YIELD OF EPD IN NANO ALUMINA SUSPENSION. JOURNAL OF ADVANCED MATERIALS AND TECHNOLOGIES[Internet]. 2016;5(3):1-9. Available from: https://sid.ir/paper/252494/en

IEEE: Copy

MOSTAFA MILANI, SEYED MOHAMMAD MIRKAZEMI, and SEYED MOHAMMAD ZAHRAEE, “STUDY THE EFFECT OF DIFFERENT ELECTRODES, SUSPENSION CONDUCTIVITY AND CELL RESISTIVITY, ON YIELD OF EPD IN NANO ALUMINA SUSPENSION,” JOURNAL OF ADVANCED MATERIALS AND TECHNOLOGIES, vol. 5, no. 3, pp. 1–9, 2016, [Online]. Available: https://sid.ir/paper/252494/en

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