On Vibrations in Thermoelasticity Without Energy Dissipation for Micropolar Bodies
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Date
2016
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Springer international Publishing Ag
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GOLD
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Abstract
We consider a micropolar thermoelastic body occupying a prismatic cylinder that is free of loads on lateral surface (no body force, no body couple, and no heat supply). On the base of the cylinder are prescribed a time-dependent displacement, a microrotation, and a thermal displacement, which are harmonic in time, and collaborate to induce the motion of the considered body. With the help of a measure associated with the corresponding steady-state vibration and by assuming that the exciting frequency is lower than a certain critical frequency, we will obtain a spatial decay estimate.
Description
Marin, Marin/0000-0003-1552-3763
ORCID
Keywords
Thermoelasticity, Micropolar, Energy Dissipation, Vibration, Algebra and Number Theory, Analysis, energy dissipation, Thermal effects in solid mechanics, thermoelasticity, Vibrations in dynamical problems in solid mechanics, micropolar, vibration, PDEs in connection with mechanics of deformable solids
Fields of Science
0203 mechanical engineering, 02 engineering and technology, 0210 nano-technology
Citation
Marin, M., Baleanu, D. (2016). On vibrations in thermoelasticity without energy dissipation for micropolar bodies. Boundray Value Problems. http://dx.doi.org/10.1186/s13661-016-0620-9
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OpenCitations Citation Count
49
Source
Boundary Value Problems
Volume
2016
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CrossRef : 42
Scopus : 72
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