Vibration Attenuation in Thin Laminated Cylindrical Composite Shells using Active and Passive Constrained Layered Damping Treatment: A Review
Keywords:
Vibration Control, Thin Cylindrical Shell, ACLD treatment, PCLD treatment, Frequency Response FunctionAbstract
This review article presents a systematic study of the selected past literature dealing with the Passive Controlled Layered Damping (PCLD) and Active Controlled Layered Damping (ACLD) modes of vibration control of thin cylindrical composite laminated shells. The Finite Element Model (FEM) and geometric modeling approach adopted by the selected authors has been briefly described along with the considered boundary conditions for the layered damping system. The effectiveness of the different models generated by the authors has been shown by comparing the results obtained from the models and those obtained from the analytical methods of previous researches. Overall observations and findings from the selected literature review have been further elucidated in the end of the article.
References
1. A.Baz, T.Chen. Control of axi-symmetric vibrations of cylindrical shells using active constrained layer damping. Journal of Thin-Walled Structures, Elsevier 2000; 36: 1-20.
2. Yuh-Chun Hu, Shyh-Chin Huang. The frequency response and damping effect of three-layer thin shell with viscoelastic core. Journal of Computers and Structures, Pergamon Publications 2000; 76: 577-591.
3. M.C. Ray, J.Oh, A. Baz. Active Constrained Layer Damping of Thin Cylindrical Shells. Journal of Sound and Vibration, Elsevier 2001; 240: 921-935.
4. C. Saravanan, N.Ganesan, V.Ramamurti. Semianalytical finite element analysis of active constrained layer damping in cylindrical shells of revolution. Journal of Computers and Structures, Pergamon Publications 2001; 79: 1131-1145.
5. Shann-Chewn Yu, Shyh-Chin Huang. Vibration of a three-layered viscoelastic sandwich circular plate. International Journal of Mechanical Sciences, Pergamon Publications 2001; 43: 2215-2236.
6. Lin-Hung Chen, Shyh-Chin Huang. Vibration Attenuation of a cylindrical shell with constrained layer damping strips treatment. Journal of Computers and Structures, Pergamon Publications 2001; 79: 1355-1362.
7. M.C. Ray, J.N. Reddy. Active control of laminated cylindrical shells using piezoelectric fiber reinforced composites. Journal of Composites Science and Technology, Elsevier 2005; 65: 1226-1236.
8. H.Zheng, C.Cai, G.S.H. Pau et al. Minimizing vibration response of cylindrical shells through layout optimization of passive constrained layer damping treatments. Journal of Sound and Vibration, Elsevier 2005; 279: 739-756.
9. M.C. Ray. Smart damping of laminated thin cylindrical panels using piezoelectric fiber reinforced composites. International Journal of Solids and Structures, Elsevier 2007; 44: 587-602.
10. M.G. Sainsbury, Ravish S.Masti. Vibration damping of cylindrical shells using strain-energy-based distribution of an add-on viscoelastic treatment. Journal of Finite Elements in Analysis and Design, Elsevier 2007; 43: 175-192.
11. M.C. Ray, R. Balaji. Active structural–acoustic control of laminated cylindrical panels using smart damping treatment. International Journal of Mechanical Sciences, Elsevier 2007; 49: 1001-1017.
12. Navin Kumar, S.P. Singh. Experimental study on vibration and damping of curved panel treated with constrained viscoelastic layer. Journal of Composite Structures, Elsevier 2010; 92: 233-243.
13. P.H. Shah, M.C. Ray. Active control of laminated composite truncated conical shells using vertically and obliquely reinforced 1-3 piezoelectric composites. European Journal of Mechanics A/Solids, Elsevier 2012; 32: 1-12p.
2. Yuh-Chun Hu, Shyh-Chin Huang. The frequency response and damping effect of three-layer thin shell with viscoelastic core. Journal of Computers and Structures, Pergamon Publications 2000; 76: 577-591.
3. M.C. Ray, J.Oh, A. Baz. Active Constrained Layer Damping of Thin Cylindrical Shells. Journal of Sound and Vibration, Elsevier 2001; 240: 921-935.
4. C. Saravanan, N.Ganesan, V.Ramamurti. Semianalytical finite element analysis of active constrained layer damping in cylindrical shells of revolution. Journal of Computers and Structures, Pergamon Publications 2001; 79: 1131-1145.
5. Shann-Chewn Yu, Shyh-Chin Huang. Vibration of a three-layered viscoelastic sandwich circular plate. International Journal of Mechanical Sciences, Pergamon Publications 2001; 43: 2215-2236.
6. Lin-Hung Chen, Shyh-Chin Huang. Vibration Attenuation of a cylindrical shell with constrained layer damping strips treatment. Journal of Computers and Structures, Pergamon Publications 2001; 79: 1355-1362.
7. M.C. Ray, J.N. Reddy. Active control of laminated cylindrical shells using piezoelectric fiber reinforced composites. Journal of Composites Science and Technology, Elsevier 2005; 65: 1226-1236.
8. H.Zheng, C.Cai, G.S.H. Pau et al. Minimizing vibration response of cylindrical shells through layout optimization of passive constrained layer damping treatments. Journal of Sound and Vibration, Elsevier 2005; 279: 739-756.
9. M.C. Ray. Smart damping of laminated thin cylindrical panels using piezoelectric fiber reinforced composites. International Journal of Solids and Structures, Elsevier 2007; 44: 587-602.
10. M.G. Sainsbury, Ravish S.Masti. Vibration damping of cylindrical shells using strain-energy-based distribution of an add-on viscoelastic treatment. Journal of Finite Elements in Analysis and Design, Elsevier 2007; 43: 175-192.
11. M.C. Ray, R. Balaji. Active structural–acoustic control of laminated cylindrical panels using smart damping treatment. International Journal of Mechanical Sciences, Elsevier 2007; 49: 1001-1017.
12. Navin Kumar, S.P. Singh. Experimental study on vibration and damping of curved panel treated with constrained viscoelastic layer. Journal of Composite Structures, Elsevier 2010; 92: 233-243.
13. P.H. Shah, M.C. Ray. Active control of laminated composite truncated conical shells using vertically and obliquely reinforced 1-3 piezoelectric composites. European Journal of Mechanics A/Solids, Elsevier 2012; 32: 1-12p.
Published
2019-01-05
How to Cite
Sen, A., & Rajput, L. (2019). Vibration Attenuation in Thin Laminated Cylindrical Composite Shells using Active and Passive Constrained Layered Damping Treatment: A Review. Journal of Advanced Research in Mechanical Engineering and Technology, 3(1&2), 28-41. Retrieved from https://adrjournalshouse.com/index.php/mechanical-engg-technology/article/view/250
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