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Thin-walled structures are very popular in industries, especially in the field of shipbuilding. There are many types of equipment and structures of ships, which are made up of thin-walled structures such as hull, deck and superstructure. Therefore, the analysis and understanding of the static and dynamic characteristics of a thin-walled structure are very important. In this article, we focus on vibration analysis of a typical thin-walled structurerectangular plate, a basic structure of the hull. Vibration analysis of a rectangular thin plate is conducted by two methods: numerical modelling method of the finite element on Patran-Nastran software platform and experimental method implemented in the laboratory of Gdynia Maritime University. Thin rectangular plate is fixed one end by four clamping plates and is modelled with finite elements and different meshing densities. The numerical model of thin rectangular plate is divided into four cases. Case 1, thin rectangular plate, and clamping plates are modelled with two-dimensional elements. Case 2, the rectangular thin plate is modelled with two-dimensional elements; the clamping plates are modelled with three-dimensional elements. Case 3, both the rectangular thin plate and clamping plates are modelled with three-dimensional elements. Case 4, the rectangular thin plate, and clamping plates are modelled with three-dimensional elements with larger mesh density to increase the accuracy of the calculation results. After that, the results of vibration analysis according to the numerical modelling method on Patran-Nastran software platform for these cases were compared with the measurement results. From there, assess the accuracy of analysis results of selected numerical model methods and the ability to widely apply this numerical model method to other marine structures
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
39--46
Opis fizyczny
Bibliogr. 10 poz., rys.
Twórcy
autor
- Gdynia Maritime University, Faculty of Marine Engineering Morska Street 83-87, 81-225 Gdynia, Poland tel.: +48 58 5586331
autor
- Gdynia Maritime University, Faculty of Marine Engineering Morska Street 83-87, 81-225 Gdynia, Poland tel.: +48 58 5586331
autor
- Gdynia Maritime University, Faculty of Marine Engineering Morska Street 83-87, 81-225 Gdynia, Poland tel.: +48 58 5586331
autor
- Gdynia Maritime University, Faculty of Marine Engineering Morska Street 83-87, 81-225 Gdynia, Poland tel.: +48 58 5586331
Bibliografia
- [1] Liew, K. M., Peng, L. X., Kitipornchai, S., Vibration analysis of corrugated Reissner Mindlin plates using a mesh-free Galerkin method, International Journal of Mechanical Sciences, Vol. 51, Iss. 9-10, pp. 642-652, 2009.
- [2] Lu, C. F., Zhang, Z. C., Chen, W. Q., Free vibration of generally supported rectangular Kirchhoff plates: State-space-based differential quadrature method, International Journal for Numerical Methods in Engineering, Vol. 70, pp. 1430-1450, 2007.
- [3] MATLAB Software, MATLAB the language of Technical Comptuting, The MathWorks, Inc. 3 Apple Hill Drive Natick, MA 01760-2098.
- [4] Moon, D. H., Choi, M. S., Vibration Analysis for Frame Structures Using Transfer of Dynamic Stiffness Coefficient, Journal of Sound and Vibration, Vol. 234, Iss. 5, pp. 725-736, 2000.
- [5] MSC.Software, MSC Nastran 2018, Quick Reference Guide, MSC.Software Corporation, Santa Ana, CA 92707, USA 2017.
- [6] MSC.Software, MSC Nastran 2017, Dynamic Analysis User’s Guide, MSC.Software Corporation, Santa Ana, revision 0, CA 92707, USA 2016.
- [7] Myung, S. C., Free Vibration Analysis of Plate Structures Using Finite Element-Transfer Stiffness Coefficient Method, KSME International Journal, Vol. 17, No. 6, pp. 805-815, 2003.
- [8] Petyt, M., Introduction to Finite Element Vibration Analysis, Cambridge University, New York 1990.
- [9] Tanaka, M., Yamagiwa, K., Miyazaki, K., Ueda, T., Free vibration analysis of elastic plate structures by boundary element method, Engineering Analysis, Vol. 5, Iss. 4, pp. 182-188, 1988.
- [10] Wu, L., Liu, J., Free vibration analysis of arbitrary shaped thick plates by differential cubature method, International Journal of Mechanical Sciences, Vol. 47, pp. 63-81, 2005.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c1917fbe-293b-455b-9b6e-df92996024ac