Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application
The presented work is an investigation of fluid-particle separation phenomena and compression stress resistance performance of magnetorheological (MR) fluids under squeeze mode. The squeeze mode is very significant to MR machining application. Material used in this study was silicone oil based MR fl...
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Trans Tech Publications, Switzerland
2014
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| Online Access: | http://umpir.ump.edu.my/id/eprint/9519/1/Fluid-Particle%20Separation%20of%20Magnetorheological%20%28MR%29%20Fluid%20in%20MR%20Machining%20Application.pdf.pdf.pdf http://umpir.ump.edu.my/id/eprint/9519/ http://www.scientific.net/KEM.611-612.746 |
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my.ump.umpir.95192018-01-22T06:22:53Z http://umpir.ump.edu.my/id/eprint/9519/ Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application I., Ismail S. N., Aqida TJ Mechanical engineering and machinery The presented work is an investigation of fluid-particle separation phenomena and compression stress resistance performance of magnetorheological (MR) fluids under squeeze mode. The squeeze mode is very significant to MR machining application. Material used in this study was silicone oil based MR fluid with 20% volume fraction of carbonyl iron particle. Compression test was performed by integrating the developed squeeze mode testing rig with a 50 kN Universal Testing Machine (UTM). The tests were conducted at constant speed and current. Each test was conducted at an initial gap of 2 mm and was stopped at a final gap of 0.5 mm. Force-displacement data was recorded and was analysed using TestExpert® II software. Full factorials with 27 experiments were designed using Design Expert 7 software. Three factors investigated in the design of experiments were carrier fluid viscosity, supplied current, and compression speed. Responses measured were strain energy and compression stress at maximum strain. Macro images of the phenomenon were recorded and evaluated qualitatively. From the compression stress-strain results, carrier fluid viscosity was significant to vary the MR fluid properties. The observed phenomenon shows that fluid-particle separation occurred in the low viscosity carrier fluid, low compression speed and high applied current. The parameters effect on strain energy and compression stress suggests that the fluid-particle separation is significant to the squeeze mode MR fluid performance. The relationship between stress resistance performance and fluid-particle separation phenomena were significant in designing innovative MR fluid devices. Trans Tech Publications, Switzerland 2014 Article PeerReviewed application/pdf en http://umpir.ump.edu.my/id/eprint/9519/1/Fluid-Particle%20Separation%20of%20Magnetorheological%20%28MR%29%20Fluid%20in%20MR%20Machining%20Application.pdf.pdf.pdf I., Ismail and S. N., Aqida (2014) Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application. Key Engineering Materials, 611 (612). pp. 746-755. ISSN 1013-9826 (print); 1662-9795 (online) http://www.scientific.net/KEM.611-612.746 DOI: 10.4028/www.scientific.net/KEM.611-612.746 |
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TJ Mechanical engineering and machinery I., Ismail S. N., Aqida Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application |
| description |
The presented work is an investigation of fluid-particle separation phenomena and compression stress resistance performance of magnetorheological (MR) fluids under squeeze mode. The squeeze mode is very significant to MR machining application. Material used in this study was silicone oil based MR fluid with 20% volume fraction of carbonyl iron particle. Compression test was performed by integrating the developed squeeze mode testing rig with a 50 kN Universal Testing Machine (UTM). The tests were conducted at constant speed and current. Each test was conducted at an initial gap of 2 mm and was stopped at a final gap of 0.5 mm. Force-displacement data was recorded and was analysed using TestExpert® II software. Full factorials with 27 experiments were designed using Design Expert 7 software. Three factors investigated in the design of experiments were carrier fluid viscosity, supplied current, and compression speed. Responses measured were strain energy and compression stress at maximum strain. Macro images of the phenomenon were recorded and evaluated qualitatively. From the compression stress-strain results, carrier fluid viscosity was significant to vary the MR fluid properties. The observed phenomenon shows that fluid-particle separation occurred in the low viscosity carrier fluid, low compression speed and high applied current. The parameters effect on strain energy and compression stress suggests that the fluid-particle separation is significant to the squeeze mode MR fluid performance. The relationship between stress resistance performance and fluid-particle separation phenomena were significant in designing innovative MR fluid devices. |
| format |
Article |
| author |
I., Ismail S. N., Aqida |
| author_facet |
I., Ismail S. N., Aqida |
| author_sort |
I., Ismail |
| title |
Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application |
| title_short |
Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application |
| title_full |
Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application |
| title_fullStr |
Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application |
| title_full_unstemmed |
Fluid-Particle Separation of Magnetorheological (MR) Fluid in MR Machining Application |
| title_sort |
fluid-particle separation of magnetorheological (mr) fluid in mr machining application |
| publisher |
Trans Tech Publications, Switzerland |
| publishDate |
2014 |
| url |
http://umpir.ump.edu.my/id/eprint/9519/1/Fluid-Particle%20Separation%20of%20Magnetorheological%20%28MR%29%20Fluid%20in%20MR%20Machining%20Application.pdf.pdf.pdf http://umpir.ump.edu.my/id/eprint/9519/ http://www.scientific.net/KEM.611-612.746 |
| _version_ |
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