Mechanism of synergetic material removal by electrochemomechanical magnetorheological polishing

Kyung In Jang; Eunseok Nam; Chan Young Lee; Jongwon Seok; Byung Kwon Min

doi:10.1016/j.ijmachtools.2013.03.011

Mechanism of synergetic material removal by electrochemomechanical magnetorheological polishing

Kyung In Jang, Eunseok Nam, Chan Young Lee, Jongwon Seok, Byung Kwon Min

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

The mechanism of material removal by electrochemomechanical magnetorheological polishing of glassy carbon (GC) products is studied in this paper. Potentiostatic experiment was performed to examine the electrochemical oxidation mechanism and the associated oxide film growth on GC. A nanoindentation test revealed that the oxide film had lower hardness than did the original GC. An electrochemical impedance spectroscopy experiments were carried out to model the electrochemomechanical material removal mechanism. A series of tribocorrosion tests were conducted to quantitatively study the tribocorrosion synergism.

Original language	English
Pages (from-to)	88-92
Number of pages	5
Journal	International Journal of Machine Tools and Manufacture
Volume	70
DOIs	https://doi.org/10.1016/j.ijmachtools.2013.03.011
Publication status	Published - 2013 Jul

Bibliographical note

Funding Information:
This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korean Government (MEST) (No. 2010-0014893 ).

Publisher Copyright:
© 2013 Elsevier Ltd

All Science Journal Classification (ASJC) codes

Mechanical Engineering
Industrial and Manufacturing Engineering

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title = "Mechanism of synergetic material removal by electrochemomechanical magnetorheological polishing",

abstract = "The mechanism of material removal by electrochemomechanical magnetorheological polishing of glassy carbon (GC) products is studied in this paper. Potentiostatic experiment was performed to examine the electrochemical oxidation mechanism and the associated oxide film growth on GC. A nanoindentation test revealed that the oxide film had lower hardness than did the original GC. An electrochemical impedance spectroscopy experiments were carried out to model the electrochemomechanical material removal mechanism. A series of tribocorrosion tests were conducted to quantitatively study the tribocorrosion synergism.",

author = "Jang, {Kyung In} and Eunseok Nam and Lee, {Chan Young} and Jongwon Seok and Min, {Byung Kwon}",

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AU - Jang, Kyung In

AU - Nam, Eunseok

AU - Lee, Chan Young

AU - Seok, Jongwon

AU - Min, Byung Kwon

N1 - Funding Information: This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korean Government (MEST) (No. 2010-0014893 ). Publisher Copyright: © 2013 Elsevier Ltd

PY - 2013/7

Y1 - 2013/7

N2 - The mechanism of material removal by electrochemomechanical magnetorheological polishing of glassy carbon (GC) products is studied in this paper. Potentiostatic experiment was performed to examine the electrochemical oxidation mechanism and the associated oxide film growth on GC. A nanoindentation test revealed that the oxide film had lower hardness than did the original GC. An electrochemical impedance spectroscopy experiments were carried out to model the electrochemomechanical material removal mechanism. A series of tribocorrosion tests were conducted to quantitatively study the tribocorrosion synergism.

AB - The mechanism of material removal by electrochemomechanical magnetorheological polishing of glassy carbon (GC) products is studied in this paper. Potentiostatic experiment was performed to examine the electrochemical oxidation mechanism and the associated oxide film growth on GC. A nanoindentation test revealed that the oxide film had lower hardness than did the original GC. An electrochemical impedance spectroscopy experiments were carried out to model the electrochemomechanical material removal mechanism. A series of tribocorrosion tests were conducted to quantitatively study the tribocorrosion synergism.

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M3 - Article

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JO - International Journal of Machine Tool Design & Research

JF - International Journal of Machine Tool Design & Research

ER -

Mechanism of synergetic material removal by electrochemomechanical magnetorheological polishing

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

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