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

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

E.ramazan TOPÇU Ramazan KAPUCU

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

E.ramazan TOPÇU Ramazan KAPUCU

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

Kaynak Göster

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