최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Tribology transactions : a publication of the Society of Tribologists and Lubrication Engineers, v.52 no.4, 2009년, pp.460 - 469
SEOK, JONGWON (School of Mechanical Engineering, Chung-Ang University, Dongjak-Gu, Seoul, Korea) , LEE, SEONG OH (School of Mechanical Engineering, Yonsei University, Seodaemun-Gu, Seoul, Korea) , JANG, KYUNG-IN (School of Mechanical Engineering, Yonsei University, Seodaemun-Gu, Seoul, Korea) , MIN, BYUNG-KWON (School of Mechanical Engineering, Yonsei University, Seodaemun-Gu, Seoul, Korea) , LEE, SANG JO (School of Mechanical Engineering, Yonsei University, Seodaemun-Gu, Seoul, Korea)
This article examines the tribological properties of a magnetorheological (MR) fluid in a finishing process. The MR fluid under investigation contains about 85 wt% of micro-sized carbonyl iron (CI) particles and about 15 wt% of water and surfactant(s) compound. A semi-empirical material removal mod...
Shafrir, Shai N., Lambropoulos, John. C., Jacobs, Stephen D.. A magnetorheological polishing-based approach for studying precision microground surfaces of tungsten carbides. Precision engineering, vol.31, no.2, 83-93.
International Journal of Modern Physics Kordonski W. I. 2837 10 1996 10.1142/S0217979296001288
DeGroote, Jessica E., Marino, Anne E., Wilson, John P., Bishop, Amy L., Lambropoulos, John C., Jacobs, Stephen D.. Removal rate model for magnetorheological finishing of glass. Applied optics, vol.46, no.32, 7927-.
American Society of Mechanical Engineers Kim W.-B. 772 126 2004
Shorey, Aric B., Jacobs, Stephen D., Kordonski, William I., Gans, Roger F.. Experiments and observations regarding the mechanisms of glass removal in magnetorheological finishing. Applied optics. Optical technology and biomedical optics, vol.40, no.1, 20-.
Journal of Society Glass Technology Preston F. W. 214 11 1927
DeGroote, Jessica E., Marino, Anne E., Wilson, John P., Bishop, Amy L., Lambropoulos, John C., Jacobs, Stephen D.. Removal rate model for magnetorheological finishing of glass. Applied optics, vol.46, no.32, 7927-.
Schinhaerl, Markus, Smith, Gordon, Stamp, Richard, Rascher, Rolf, Smith, Lyndon, Pitschke, Elmar, Sperber, Peter, Geiss, Andreas. Mathematical modelling of influence functions in computer-controlled polishing: Part I. Applied mathematical modelling, vol.32, no.12, 2888-2906.
Schinhaerl, Markus, Smith, Gordon, Stamp, Richard, Rascher, Rolf, Smith, Lyndon, Pitschke, Elmar, Sperber, Peter, Geiss, Andreas. Mathematical modelling of influence functions in computer-controlled polishing: Part II. Applied mathematical modelling, vol.32, no.12, 2907-2924.
QED Technologies, MRF machine systems (Q22-750P2, Q22-950F, and Q22-950F-PC). http://qedmrf.com(accessed November 7, 2008)
Seok, J., Kim, Y.-J., Jang, K.-I., Min, B.-K., Lee, S.J.. A study on the fabrication of curved surfaces using magnetorheological fluid finishing. International journal of machine tools & manufacture, vol.47, no.14, 2077-2090.
Archard, J. F.. Contact and Rubbing of Flat Surfaces. Journal of applied physics, vol.24, no.8, 981-988.
Lord Corporation, MR fluid (MRF 241ES). http://www.lord.com(accessed May 30, 2006)
Applied Physics Tang X. 3026 33 2000
Park, Jong Hyeok, Chin, Byung Doo, Park, O Ok. Rheological Properties and Stabilization of Magnetorheological Fluids in a Water-in-Oil Emulsion. Journal of colloid and interface science, vol.240, no.1, 349-354.
Jha, Sunil, Jain, V. K., Komanduri, Ranga. Effect of extrusion pressure and number of finishing cycles on surface roughness in magnetorheological abrasive flow finishing (MRAFF) process. International journal of advanced manufacturing technology, vol.33, no.7, 725-729.
Lim, Sung Taek, Cho, Min Seong, Jang, I.B., Choi, Hyoung Jin, Jhon, M.S.. Magnetorheology of carbonyl-iron Suspensions with submicron-sized filler. IEEE transactions on magnetics, vol.40, no.4, 3033-3035.
Kordonski, William I., Shorey, Aric B., Tricard, Marc. Magnetorheological Jet (MR JetTM) Finishing Technology. Journal of fluids engineering, vol.128, no.1, 20-26.
Laun, H.M., Gabriel, C., Schmidt, G.. Primary and secondary normal stress differences of a magnetorheological fluid (MRF) up to magnetic flux densities of 1T. Journal of non-Newtonian fluid mechanics, vol.148, no.1, 47-56.
Hwang, B.H. 2005. “Improvement of Process Repeatability Using Run-to-Run Control for Magnetorheological Finishing”. Seoul, Korea: Yonsei University, School of Mechanical Engineering. Master's Thesis 2005
Russian Physics Journal Mamontova Yu. M. 1553 17 1974
Journal of Washington Academic Science Hersey M. D. 542 4 1914
Applied Physics Smith G. C. 187 33 2000
Jolly, Mark R, Carlson, J David, Muñoz, Beth C. A model of the behaviour of magnetorheological materials. Smart materials & structures, vol.5, no.5, 607-614.
AIEE Trans. Rabinow J. 1308 67 1948
※ AI-Helper는 부적절한 답변을 할 수 있습니다.