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| dc.contributor.author | Ahmed, Abrar | |
| dc.contributor.author | Najib, Mehran | |
| dc.contributor.author | Masuk, Ashik Ullah Mohammad | |
| dc.date.accessioned | 2021-10-12T09:50:13Z | |
| dc.date.available | 2021-10-12T09:50:13Z | |
| dc.date.issued | 2012-11-15 | |
| dc.identifier.citation | [1].A. W. Leissa, Vibrarion of Shells. NASA SP-288 (1973). [2].H. Chung, A general method of solution for vibrations of cylindrical shells. Ph.D. thesis, Tufts University (1974). [3]R. Grief and H. Chung, Vibration of constrained cylindrical shells. AIAA Jnl 13, 1190-I 198 (1975). [4]C. B. Sharma and D. J. Johns, Free vibration of cantilever circular shells. J. Sound Vibr. 25, 433449 (1972). [5]C. B. Sharma, Calculation of natural frequencies of fixed-free circular cylindrical shells. 35, 55-76 (1974). [6]R. L. Goldman, Mode shapes and frequencies of clamped-clamped cylindrical shells. AIAA Jnl 12, 1755-1756 (1974 [7]H. Chung, Free vibration analysis of circular cylindrical shells. J. Sound Vibr. 74, 331-350 (1981). [8]Y. Mnev and A. Pertsev, Hydro elasticity of shells. Wriaht-Patterson Air Force Base Report FTD-MT-24-119% (1971). [9]M. C. Junger and D. Feit, Sound, Structures and Their Interaction. MIT Press. Cambridue. MA (1972). [10]S. J. Brown, A survey of studies into the hydrodynamic response of fluid-coupled circular cylinders. ASME J. Press. Vess. Technol. 104, 2-19 (1982). [11]K. K. T. Chu, M. Pappas and H. Herman, Dynamics of submerged cylindrical shells with eccentric stiffening. AIAA Jnl 18, 834-840 (1980). [12]P. B. Goncalves, Non-linear dynamic interaction between fluid and thin shells. Ph.D. dissertation, Coppe- Federal University of Rio De Janeiro (1987). [13]Markus, S.,The Mechanics of Vibrations cylindrical Shells, Elsevier Science Publishers, The Netherlands,(1988) l-35. [14]C. W. Bert, Chun-Do Kim and V. Birman, Vibration of composite-material cylindrical shells with ring and/or stringer stiffeners. Compos. Srruct. 25, 477-484 (1993). 101 [15]B. A. J. Mustafa and R. Ali, Free vibration analysis of multi-symmetric stiffened shells. Comput. Struct. 27, 803-810 (1987). [16]B. A. J. Mustafa and R. Ali, Prediction of natural frequency of vibration of stiffened cylindrical shells and orthogonally stiffened curved panels. J. Sound Vibr. 113, 317-327 (1987). [17]B. A. J. Mustafa and R. Ali, An energy method for free vibration of stiffened circular cylindrical shells. Comput. Struct. 32, 355-363 (1989). [18]W. H. Hoppmann, Some characteristics of the flexural vibrations of orthogonally stiffened cylindrical shells. J. Acousf. Sot. Am. 30, 77-82 (1958). [19]S. A. Rinehart and J. T. S. Wang, Vibration of simply supported cylindrical shells with longitudinal stiffeners. J. Sound Vibr. 24, 151-163 (1972). [20]J. T. S. Wang and S. A. Rinehart, Free vibration of longitudinally stiffened cylindrical shells. J. appl. Mech. 1087-1093 (1974). [21]Bhimaraddi A. A higher order theory for free vibration analysis of circular cylindrical shells. Int J Solids Struct 1984;20(7):623–30. [22]Reddy JN, Liu CF. A higher-order shear deformation theory of laminated elastic shells. Int J Eng Sci 1985;23:440–7. Werner Soedel (2005), Vibrations of Shells and Plates third Edition revised and expanded, Marcel Dekker, Inc. Singiresu S. Rao (2004), Mechanical Vibration, Pearson Education, Inc and Dorling Kindersley Publishing Inc. William W. Seto (1964), schaum’s Outline Of Theory And problem Of Mechanical Vibrations, McGraw-Hill, Inc. | en_US |
| dc.identifier.uri | http://hdl.handle.net/123456789/1192 | |
| dc.description | Supervised by Dr. Md. Zahid Hossain, Dr. Mir Md. Maruf Morshed, Department of Mechanical and Chemical Engineering (MCE), Islamic University of Technology (IUT), Board Bazar, Gazipur, Dhaka, Bangladesh. | en_US |
| dc.description.abstract | The linear response of a cylindrical shell (thin cylinder) subjected to modal and harmonic excitations are investigated. Natural frequencies and forced vibration response are investigated for the simply supported-simply supported boundary conditions. The equations of motion of the structure for the theoretical analysis are obtained from Love’s equation and for computing results, programs are written in MATLAB. Finite element method is used for numerical analysis (using ANSYS MECHANICAL APDL). The natural frequencies obtained by numerical, theoretical and experimental analyses were compared and showed good agreement among the results. | en_US |
| dc.language.iso | en | en_US |
| dc.publisher | Department of Mechanical and Production Engineering (MPE),Islamic University of Technology(IUT), Board Bazar, Gazipur, Bangladesh | en_US |
| dc.title | Vibration Analysis of a Simply Supported Cylindrical Shell | en_US |
| dc.type | Thesis | en_US |
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