Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch

Yıl 1998, Cilt: 11 Sayı: 2, 39 – 51, 31.12.1998

Öz

Electrorheological fluids consist of finely
divided polarizable particles suspended in non-conducting fluid.

Anahtar Kelimeler

Electrorheological Fluids, Cylindrical Viscometer, Bingham Fluid, Electrical Field

Kaynakça

  • [1] N. G. Stevens, J. L. Sproston, and R. Stanway, ‘. An Experimenlal Study ofElectro- Rheological Torque Transmission”, Transactions ofthe ASME, Vol. 110, pp 182-188, 1988.
  • [2] G. J. Monkman, ” Exploitation of Compressive Sü-ess in Electrorheoîogİcaİ Coupling”, Mechalrmics, Vol. 7, No. l, pp 27-36, 1997.
  • [3] T. G. Duclos, D.N. Acker, and J. D. Carlson, ” Fluids That Thicken Electrically”, Machine Design, Vol. 1000, pp 56-61, 1988.
  • [4] N. Markis, S. A. Burton, D. Hill and M. Jordan, “Analysis and Design of ER Dampeı for Seismic Protection of Structures”, Journal ofEngineering Mechanics, Vol. l:. 2, No. 10, pp 1003-1001, 1996.
  • [5] D. L. Klass and T. W. Martinek, ” EIectroviscous Fluids. I. Rheological Properties”, JourmlofAppliedPhysics, Vol. 38, pp 67-74, 1967.
  • [6] A. J. Simmonds, “Electro-RheologicaI Valves in a Hydraulic Circuit”, !EE Proceedings-D, Vol. 138, No. 4, pp 400-404, 1991.
  • [7] M. V. Gandhi and B. S. Thompson, “Smarl Materials & Struclııres”, Chapman and HaULtd., pp 137-173, 1992.
  • [8] S. B. Choi and Y. K. Park, ” Active Vibration Control of a Canlilevercd Beam Containing an Electro-Rheological Fluid”, Journal of Sound and Vibration, Vol. 173, pp 428-430, 1994.
  • [9] S. B. Choi, C. C. Chcong, J. M. Jung and Y. T. Choi, ” Position Control of an ER Valve-Cylinder System Via Neuıal Network Controller”. Mechatronics. Vol. 7. No, l. pp 37-52, 1996.
  • [10] T. C, Jordan and M. T. Shaw, ” Electrorheology”, IEEE Transactions on Electrical Insulalion, Vol. 2, No. 5, pp 849-879, 1989.
  • [11] R. Stanway and J. L. Sproston, ” Electro-Rheological Fluids: A Systematic Approach to Classifying Modes of Operation”, Transactions ofthe ASME, Vol. 116, pp 498-504, 1994.
  • [12] N. G. Stevens, J. L. Sproston mıd R. Staııway, ” The Influence of Pulsed D.C. Input Signals on Electrorheological Fluids”, Journaî ofElectrosîatics, Vol. 17, pp 181- 191, 1985.
  • [13] D.A. Brooks, ” EIectro-Rheological Devices”, Chart Mechanical Engmeermg, pp 91-93, 1982.
  • [14] J. L. Sproston, S. G. Rigby, E. W. Williams, and R. Stanuay, 1994, ” A Numerical Simulation of Electrorheological Fluids in Oscillatory Compressive Squeeze-Fiow”, J. Phys. D: Applied Physics, Vol. 27, pp 338-343, 1994.
  • [15] S. B. Choi, C. C. Cheong, J. M. Jung, and G. W. Kim, “Feedback Control of Tension in a Moving Tape Using an ER Brake Actuator”, Mechatronlcs, Vol. 7, No. î, pp 53-66, 1997.

Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch

Yıl 1998, Cilt: 11 Sayı: 2, 39 – 51, 31.12.1998

Öz

Electrorheological fluids consist of finely divided polarizable particles suspended in non-conducting fluid.

Anahtar Kelimeler

Electrorheological Fluids, Cylindrical Viscometer, Bingham Fluid, Electrical Field

Kaynakça

  • [1] N. G. Stevens, J. L. Sproston, and R. Stanway, ‘. An Experimenlal Study ofElectro- Rheological Torque Transmission”, Transactions ofthe ASME, Vol. 110, pp 182-188, 1988.
  • [2] G. J. Monkman, ” Exploitation of Compressive Sü-ess in Electrorheoîogİcaİ Coupling”, Mechalrmics, Vol. 7, No. l, pp 27-36, 1997.
  • [3] T. G. Duclos, D.N. Acker, and J. D. Carlson, ” Fluids That Thicken Electrically”, Machine Design, Vol. 1000, pp 56-61, 1988.
  • [4] N. Markis, S. A. Burton, D. Hill and M. Jordan, “Analysis and Design of ER Dampeı for Seismic Protection of Structures”, Journal ofEngineering Mechanics, Vol. l:. 2, No. 10, pp 1003-1001, 1996.
  • [5] D. L. Klass and T. W. Martinek, ” EIectroviscous Fluids. I. Rheological Properties”, JourmlofAppliedPhysics, Vol. 38, pp 67-74, 1967.
  • [6] A. J. Simmonds, “Electro-RheologicaI Valves in a Hydraulic Circuit”, !EE Proceedings-D, Vol. 138, No. 4, pp 400-404, 1991.
  • [7] M. V. Gandhi and B. S. Thompson, “Smarl Materials & Struclııres”, Chapman and HaULtd., pp 137-173, 1992.
  • [8] S. B. Choi and Y. K. Park, ” Active Vibration Control of a Canlilevercd Beam Containing an Electro-Rheological Fluid”, Journal of Sound and Vibration, Vol. 173, pp 428-430, 1994.
  • [9] S. B. Choi, C. C. Chcong, J. M. Jung and Y. T. Choi, ” Position Control of an ER Valve-Cylinder System Via Neuıal Network Controller”. Mechatronics. Vol. 7. No, l. pp 37-52, 1996.
  • [10] T. C, Jordan and M. T. Shaw, ” Electrorheology”, IEEE Transactions on Electrical Insulalion, Vol. 2, No. 5, pp 849-879, 1989.
  • [11] R. Stanway and J. L. Sproston, ” Electro-Rheological Fluids: A Systematic Approach to Classifying Modes of Operation”, Transactions ofthe ASME, Vol. 116, pp 498-504, 1994.
  • [12] N. G. Stevens, J. L. Sproston mıd R. Staııway, ” The Influence of Pulsed D.C. Input Signals on Electrorheological Fluids”, Journaî ofElectrosîatics, Vol. 17, pp 181- 191, 1985.
  • [13] D.A. Brooks, ” EIectro-Rheological Devices”, Chart Mechanical Engmeermg, pp 91-93, 1982.
  • [14] J. L. Sproston, S. G. Rigby, E. W. Williams, and R. Stanuay, 1994, ” A Numerical Simulation of Electrorheological Fluids in Oscillatory Compressive Squeeze-Fiow”, J. Phys. D: Applied Physics, Vol. 27, pp 338-343, 1994.
  • [15] S. B. Choi, C. C. Cheong, J. M. Jung, and G. W. Kim, “Feedback Control of Tension in a Moving Tape Using an ER Brake Actuator”, Mechatronlcs, Vol. 7, No. î, pp 53-66, 1997.

Ayrıntılar

KonularMakine Mühendisliği
BölümAraştırma Makaleleri
Yazarlar

E.ramazan TOPÇU

Ramazan KAPUCU

Yayımlanma Tarihi31 Aralık 1998
Kabul Tarihi1 Temmuz 1998
Yayımlandığı SayıYıl 1998 Cilt: 11 Sayı: 2

Kaynak Göster

APATOPÇU, E., & KAPUCU, R. (1998). Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, 11(2), 39-51.
AMATOPÇU E, KAPUCU R. Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch. ESOGÜ Müh Mim Fak Derg. Aralık 1998;11(2):39-51.
ChicagoTOPÇU, E.ramazan, ve Ramazan KAPUCU. “Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi 11, sy. 2 (Aralık 1998): 39-51.
EndNoteTOPÇU E, KAPUCU R (01 Aralık 1998) Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 11 2 39–51.
IEEEE. TOPÇU ve R. KAPUCU, “Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch”, ESOGÜ Müh Mim Fak Derg, c. 11, sy. 2, ss. 39–51, 1998.
ISNADTOPÇU, E.ramazan – KAPUCU, Ramazan. “Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch”. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 11/2 (Aralık 1998), 39-51.
JAMATOPÇU E, KAPUCU R. Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch. ESOGÜ Müh Mim Fak Derg. 1998;11:39–51.
MLATOPÇU, E.ramazan ve Ramazan KAPUCU. “Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, c. 11, sy. 2, 1998, ss. 39-51.
VancouverTOPÇU E, KAPUCU R. Comparison Of Electrorheological Behaviour Of Mineral And Transformer Oil Contaminated By Starch. ESOGÜ Müh Mim Fak Derg. 1998;11(2):39-51.

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