Semi-active torsional vibration isolation utilizing magnetorheological elastomer
In rotating machinery, unattenuated excessive torsional vibration leads to damage and excessive wear. This type of vibration, which is transferred from one structure to another can be estimated using torsional transmissibility factor (TTF). The value of the TTF describes the ratio of output to inp...
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Poznan University of Technology
2018
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| Online Access: | http://irep.iium.edu.my/66019/1/66019_Semi-Active%20Torsional%20Vibration%20Isolation_article.pdf http://irep.iium.edu.my/66019/2/66019_Semi-Active%20Torsional%20Vibration%20Isolation_scopus.pdf http://irep.iium.edu.my/66019/ http://vibsys.put.poznan.pl/_journal/2018-29/articles/vibsys_2018014.pdf |
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my.iium.irep.660192018-08-30T05:33:10Z http://irep.iium.edu.my/66019/ Semi-active torsional vibration isolation utilizing magnetorheological elastomer Marzuki, Wan M.R.W. Abdul Muthalif, Asan Gani Nordin, N. H.Diyana TJ Mechanical engineering and machinery TJ241 Machine construction (General) TS Manufactures In rotating machinery, unattenuated excessive torsional vibration leads to damage and excessive wear. This type of vibration, which is transferred from one structure to another can be estimated using torsional transmissibility factor (TTF). The value of the TTF describes the ratio of output to input and reaches its peak at the natural frequency. Hence, the ability to vary coupling stiffness of two rotating shafts will allow the control of the TTF towards better performance and preventions from fatigue loading. Traditionally, passive rubbers are used as a flexible coupling in between two shafts. However, the constant passive stiffness of the material limits its performance. To address this issue, an adaptive coupling based on magnetorheological elastomer (MRE) is proposed to achieve better TTF at varying frequencies. Mathematical modelling, simulation study and experimental results of MRE for torsional vibration isolation are presented in this work. Natural frequency obtained from the TTF shows an increase of about 3 Hz when current changed from 1 to 6 A. Poznan University of Technology 2018-05 Article PeerReviewed application/pdf en http://irep.iium.edu.my/66019/1/66019_Semi-Active%20Torsional%20Vibration%20Isolation_article.pdf application/pdf en http://irep.iium.edu.my/66019/2/66019_Semi-Active%20Torsional%20Vibration%20Isolation_scopus.pdf Marzuki, Wan M.R.W. and Abdul Muthalif, Asan Gani and Nordin, N. H.Diyana (2018) Semi-active torsional vibration isolation utilizing magnetorheological elastomer. Vibrations in Physical Systems, 29. pp. 1-8. ISSN 0860-6897 http://vibsys.put.poznan.pl/_journal/2018-29/articles/vibsys_2018014.pdf |
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TJ Mechanical engineering and machinery TJ241 Machine construction (General) TS Manufactures Marzuki, Wan M.R.W. Abdul Muthalif, Asan Gani Nordin, N. H.Diyana Semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| description |
In rotating machinery, unattenuated excessive torsional vibration leads to damage and excessive wear. This type
of vibration, which is transferred from one structure to another can be estimated using torsional transmissibility
factor (TTF). The value of the TTF describes the ratio of output to input and reaches its peak at the natural
frequency. Hence, the ability to vary coupling stiffness of two rotating shafts will allow the control of the TTF
towards better performance and preventions from fatigue loading. Traditionally, passive rubbers are used as a
flexible coupling in between two shafts. However, the constant passive stiffness of the material limits its
performance. To address this issue, an adaptive coupling based on magnetorheological elastomer (MRE) is
proposed to achieve better TTF at varying frequencies. Mathematical modelling, simulation study and
experimental results of MRE for torsional vibration isolation are presented in this work. Natural frequency
obtained from the TTF shows an increase of about 3 Hz when current changed from 1 to 6 A. |
| format |
Article |
| author |
Marzuki, Wan M.R.W. Abdul Muthalif, Asan Gani Nordin, N. H.Diyana |
| author_facet |
Marzuki, Wan M.R.W. Abdul Muthalif, Asan Gani Nordin, N. H.Diyana |
| author_sort |
Marzuki, Wan M.R.W. |
| title |
Semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| title_short |
Semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| title_full |
Semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| title_fullStr |
Semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| title_full_unstemmed |
Semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| title_sort |
semi-active torsional vibration isolation utilizing magnetorheological elastomer |
| publisher |
Poznan University of Technology |
| publishDate |
2018 |
| url |
http://irep.iium.edu.my/66019/1/66019_Semi-Active%20Torsional%20Vibration%20Isolation_article.pdf http://irep.iium.edu.my/66019/2/66019_Semi-Active%20Torsional%20Vibration%20Isolation_scopus.pdf http://irep.iium.edu.my/66019/ http://vibsys.put.poznan.pl/_journal/2018-29/articles/vibsys_2018014.pdf |
| _version_ |
1643617673843572736 |