Abstract
The variations of the structural vibration characteristics such as the natural frequency, damping, and mode shape can be observed under thermal loading conditions. Therefore, the free vibration characteristic of a thermally loaded cylindrical shell was analyzed in this study. ABAQUS was used for the analysis and a thermo-elastic experimental modal test was conducted. Configuration of the shell is 5 m long, 0.4 m diameter, 0.002 m thick and its material was combined by stainless-steel 304 and aluminum 6,061. The cylindrical shell was heated by the temperature of 100, 200 and 400°C and divided longitudinally by five zones. The theoretical analysis was verified by the experimental modal analysis of the cylindrical shell which has the free–free boundary condition and the elevated thermal conditions. After that, the free vibration analysis of the thermally loaded cylindrical shell was performed according to several thermally loaded conditions.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
B.A. Boley, BA (1956) Thermally induced vibrations of beam. Journal. of Aeronautical. Sciences. 23: 179–181 (1956)
B.A. Boley, BA, A.D. Barber, AD (1957) Dynamics response of beams and plates to rapid heating. Trans. of ASME. Journal. of Appllied. Mechanics. 24: 413–416 (1957)
J. Avsec J, M. Oblak M, Thermal vibrational analysis for simply supported beam and clamped beam. Journal. of Sound and Vibration. 308: 514–525 (2007)
D.J. Mead, DJ (2003) Vibration and buckling of flat free–free plates under non-uniform in-plane thermal stresses. Journal. of Sound and Vibration. 260: 141–165 (2003)
V. Pradeep V, N. Ganesan N (2008), Thermal buckling and vibration behavior of multi-layer rectangular viscoelastic sandwich plates. Journal. of Sound and Vibration. 310: 169–183 (2008)
N. Ganesan N, V. Pradeep, V (2005) Buckling and vibration of circular cylindrical shells containing hot liquid. Journal. of Sound and Vibration. 287: 845–863 (2005)
R.M. Beam, On the phenomenon of thermoelastic instability (thermal flutter) of booms with open cress section. NASA TN D-5222 (1969)
W.K. Michael WK, C.D. Vician, CD (1993) Correlation of analytical and experimental hot structure vibration results. NASA TM 104269 (1993)
J.R. Blandino, JR and E.A. Thornton EA (2001), Thermally induced vibration of an internally heated beam,. Journal. of Vibration and Acoustics. 123: 67–75 (2001)
N.F. Huber NF, W.J. Bowman, WJ (1996) Longitudinal vibration effects on a copper/water heat pipe’s capillary limit. Journal. of Thermophys.ics and Heat Transfer. 10: 90–96 (1996)
Y.S. Lee YS, J.H. Kim JH, H.S. Kim HS, D.H. Kim DH, S.H. Gu SH, S.I. Moon SI (2006), A study on the thermal vibration analysis of the graphite disk under thermal shocks. International. Journal. of Modern . Physics. B 20: 4105–4110 (2006)
K.D. Murphy KD, L.N. Virgin, S.A. LN Rizzi, SA (1997) The effect of thermal prestresses on the free vibration characteristics of clamped rectangular plates: Theory and experiment. Journal. of Vibration. and Acoustics. 119: 243–249 (1997)
M. Amabili M, S. Carra, S (2009) Thermal defects on geometrically nonlinear vibrations of rectangular plates with fixed edges. Journal. of Sound and Vibration. 321: 936–954. (2009)
SDRC, (2008) User guide for I-DEAS NX5 (2008)
Dassautt Systems Simulia Corp., (2008) ABAQUS/Standard User’s Manual, (Version 6.8-2) (SIMULIA, Providence, RI, 2008)
Department of Defense, (2003) Handbook: Metallic materials and elements for aerospace vehicle structures. MIL-HDBK-5 J Superseding MIL-HDBK-5H (2003)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2010 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Jeon, BH., Kang, HW., Lee, YS. (2010). Free Vibration Characteristics of Thermally Loaded Cylindrical Shell. In: Öchsner, A., da Silva, L., Altenbach, H. (eds) Materials with Complex Behaviour. Advanced Structured Materials, vol 3. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-12667-3_9
Download citation
DOI: https://doi.org/10.1007/978-3-642-12667-3_9
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-12666-6
Online ISBN: 978-3-642-12667-3
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)