Experimental Researches of Hydraulic Clutches with Smart Fluids
(*) Corresponding author
DOI: https://doi.org/10.15866/ireme.v10i6.8421
Abstract
The purpose of the article is to present results of experimental researches of new designs of hydraulic clutches with smart type working fluids. The research methodology includes conduct of experimental researches of hydraulic clutches with smart fluids in order to obtain steady-state and dynamic characteristics and relations occurring between design parameters. Experimental researches have been performed on a specially built for this purpose test-rigs. The results will be used to develop control methods of clutches prototypes. Moreover, an analysis of results allows for development of new designs of such clutches. Development of new designs, gives the possibility to use them in practice.
Copyright © 2016 Praise Worthy Prize - All rights reserved.
Keywords
Full Text:
PDFReferences
Z. Kęsy, Prospects for the Control of a Torque Converter Using Magnetic Fluid, Proc. International Colloquium – Innovative Actuators for Mechatronic Systems, Londyn, 1995, pp. 10.1–10.3.
http://dx.doi.org/10.1049/ic:19951054
J. D. Carlson, D. M. Catanzarite, K. A. St. Clair, Commercial Magneto–Rheological Fluid Device, Proc. 5th International Conference on Electro–Rheological Fluids, Magneto–Rheological Suspensions and Associated Technology, Sheffield, 1995, pp. 20–28.
H. J. Conrad, Electrorheological Fluids: Characteristics, Structure and Mechanisms, Electro–Rheological Flow, American Society of Mechanical Engineers, FED–Vol. 164, 1993.
J. D. Carlson, MR Fluids and Devices in the Real World, Proc. 9th International Conference on Electro-Rheological Fluids, Magneto–¬Rheological Suspensions and Associated Technology, Beijing, 2004.
http://dx.doi.org/10.1142/9789812793607_0071
A. Milecki, Using of Magnetorheological and Electrgheological Fluids in Electrohydraulic Servo Control System, Hydraulics
i Pneumatics, No 5, pp. 16–25, 1998.
http://dx.doi.org/10.1177/030641909802600104
R. Stanway, Smart Fluids: Current and Future Developments, Material Sciences and Technology, Vol. 20, pp. 931–939, 2004.
http://dx.doi.org/10.1179/026708304225019867
Z. Kesy, A. Kesy, Performance Assessment of New Brake Actuator with Magneto–Rheological Working Fluid, (2007) International Review of Mechanical Engineering (IREME), 1 (6), pp. 691-696.
Z. Kesy, A. Kesy, M. R. Jackson, R. M. Parkin, Investigation of Viscotic Clutch with Electrorheological Fluid, (2008) International Review of Mechanical Engineering (IREME), 2 (5), pp. 792-796.
B. M. Kavlicoglu, et al., A High Torque Magnetorheological Fluid Clutch, Proceedings of SPIE Conference on Smart Materials and Structures, San Diego, CA, 2002, pp.1 – 8.
http://dx.doi.org/10.1117/12.472674
E.C. Partington, An Electrorheological Fluid Automotive Power Transmission, XXIX FISITA Congress, Italy, 1996, pp. 1 – 8.
S. B. Choi, , I. H. Bang, , M. S. and Y.S. Lee Cho, Sliding Mode Control for Anti-lock Brake System of Passenger Vehicles Featuring Electrorheological Valves, Journal of Automobile Engineering, Part D, Vol. 216, pp. 897 – 908, 2002.
http://dx.doi.org/10.1243/095440702321031441
H. Conrad, Electrorheological Fluids: Characteristics, Structure and Mechanisms, American Society of Mechanical Engineers, Vol. 164, pp. 99 – 113, 1993.
V. E. Fertman, Magnetic Fluids Guidebook: Properties and Applications. Hemisphere Publishing Corporation (1990).
http://dx.doi.org/10.1080/08843759108942274
A. Olszak, Modeling and Testing of Hydrodynamic Clutch Controlled by Means of Magnetic Fluid, Ph.D. dissertation, Lodz University of Technology, Poland, 2005.
Z. Kęsy, A. Kęsy, A. Olszak, M. Jackson and R. Parkin, Modelling of Unsteady-state Motion of Transmission System with Electrically Controlled Viscotic Clutch, Proc. 5th Internation Workashop on Research and Education in Mechatronics, Kielce-Cedzyna, Poland, 2004, pp. 223 – 227.
Z. Kęsy, A. Kęsy, G. Podwojski, Hydrodynamic Clutch with Electrorheological Fluid, International Scientific Conference on Hydraulic Drive and Control, Wrocław, Poland, 2005.
G. Podwojski, E. Ziąbska, Z. Kęsy and A. Olszak, Fabrication Problems of Hydraulic Clutch with Electro-rheological Fluid, Proc. 14th Annual International Conference Rapid Product Development Association of South Africa „Additive Manufacturing Improving Your World Layer-by-Layer”, SANParks Golden Gate Hotel, 2013, pp. 49.
J. Madeja, Z. Kęsy and A. Kęsy, Application of ER Fluid in Hydrodynamic Clutch, Smart Materials and Structures, Vol. 20, pp. 1 – 9, 2011.
http://dx.doi.org/10.1088/0964-1726/20/10/105005
E. Ziąbska, I. Musiałek, A. Olszak and Z. Kęsy, Durability Assesment of Electrorheological Fluids, Hydraulics and Pneumatics, 3/2013, pp. 8 – 11, 2013.
I. Musiałek, Testing of Complex Hydraulic Clutch Controlled by Means of Electrorheological Fluid, Ph.D. dissertation, Kielce University of Technology, Poland, 2008.
M. Migus, Application of Magnetic Fluid to Control Characteristics of Complex Clutch, Ph.D. dissertation, Lodz University of Technology, Poland, 2008.
Z. Kęsy, Control of Hydrodynamic Clutch with Magnetic Fluid, Polish Patent 215102.
A. Kęsy and Z. Kęsy, Control of Hydrodynamic Clutch with Electrorheological Fluid, Polish Patent 215020.
http://dx.doi.org/10.1088/0964-1726/20/10/105005
Refbacks
- There are currently no refbacks.
Please send any question about this web site to info@praiseworthyprize.com
Copyright © 2005-2024 Praise Worthy Prize