2021
DOI: 10.1007/s00161-021-01060-w
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Mathematical modelling of thermoelasticity problems for thin biperiodic cylindrical shells

Abstract: The objects of consideration are thin linearly thermoelastic Kirchhoff-Love-type circular cylindrical shells having a periodically microheterogeneous structure in circumferential and axial directions (biperiodic shells). The aim of this contribution is to formulate and discuss two new averaged mathematical models for the analysis of selected dynamic thermoelasticity problems for the shells under consideration: the non-asymptotictolerance and the consistent asymptotic models. The starting equations are the well… Show more

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Cited by 5 publications
(5 citation statements)
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“…• In the framework of the general and standard tolerance models, not only the fundamental lower (ω gtm − ) uni (25), (ω stm − ) uni (29), but also the new additional higher (ω gtm + ) uni (26), (ω stm + ) uni (30) free vibration frequencies can be derived and analysed. The higher free vibration frequencies are caused by a periodic microstructure of the shell strip under consideration, and hence, they depend on a microstructure length parameter λ.…”
Section: Discussion Of Analytical and Numerical Resultsmentioning
confidence: 99%
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“…• In the framework of the general and standard tolerance models, not only the fundamental lower (ω gtm − ) uni (25), (ω stm − ) uni (29), but also the new additional higher (ω gtm + ) uni (26), (ω stm + ) uni (30) free vibration frequencies can be derived and analysed. The higher free vibration frequencies are caused by a periodic microstructure of the shell strip under consideration, and hence, they depend on a microstructure length parameter λ.…”
Section: Discussion Of Analytical and Numerical Resultsmentioning
confidence: 99%
“…Hence, the asymptotic model (19) being more simple than the tolerance non-asymptotic ones is sufficient from the point of view of calculations made for the dynamic problem under consideration. From the computational results, it also follows that the differences between values of higher cell-dependent free vibration frequency (26) derived from the general tolerance model and values of higher cell-dependent free vibration frequency (30) obtained from the standard tolerance one are negligibly small. Thus, in order to determine and investigate these celldependent frequencies, the standard tolerance model ( 15)- (17), being more simple than the general tolerance one ( 12)-( 14), can be applied.…”
Section: Final Remarks and Conclusionmentioning
confidence: 86%
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“…An analysis of the dynamics of periodic thin plates, with the size of the microstructure of an order of the plate thickness, was shown in [73]. Stability, dynamics, and thermoelasticity problems of micro-periodic shells were considered in papers [74][75][76][77][78][79]. Elastostatics of periodic thin plates with large deflections were investigated in [80].…”
Section: Introductionmentioning
confidence: 99%