Parametrically excited unidirectional wave propagation in thin beam phononics
2022
Authors
Rosić, NevenaKarličić, Danilo
Cajić, Milan
Lazarević, Mihailo
Contributors
Dragović, VladimirArticle (Published version)
Metadata
Show full item recordAbstract
Wave attenuation, filtering and guiding is an ongoing topic of scientific
research, as there are many opportunities for improvement of existing
solutions in modern industry. One of the recent advancements has been made
with the use of non-reciprocal metamaterials.Certain properties of metamaterials
have made them suitable for use in various engineering fields. In this study,
we investigate non-reciprocal wave propagation behavior in coupled thin beams
phononics, due to time-modulation of material properties and axial loads. We
compare the results for the beams which are interconnected with Winkler’s
type of elastic layers and elastic or viscoelastic Pasternak layers. An analytic
approach is used to discover directional band gaps and investigate wave propagation
through these systems of beams, at relevant excitation frequencies. The
proposed framework can be exploited in further analysis of phononic systems
based on multiple beams coupled through different mediums and struct...ural
elements modeled with higher-order beam theories.
Keywords:
beam system / phononic systems / Bloch theorem / Euler–Bernoulli beam / Winkler layer / Pasternak layer / elastic / viscoelastic / periodicity / time-modulated properties / non-reciprocal wave propagationSource:
Theoretical and applied mechanics, 2022, 49, 2, 137-155Publisher:
- Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade
- Serbian Society of Mechanics
Funding / projects:
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200105 (University of Belgrade, Faculty of Mechanical Engineering) (RS-MESTD-inst-2020-200105)
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Institution/Community
Mašinski fakultetTY - JOUR AU - Rosić, Nevena AU - Karličić, Danilo AU - Cajić, Milan AU - Lazarević, Mihailo PY - 2022 UR - https://machinery.mas.bg.ac.rs/handle/123456789/4073 AB - Wave attenuation, filtering and guiding is an ongoing topic of scientific research, as there are many opportunities for improvement of existing solutions in modern industry. One of the recent advancements has been made with the use of non-reciprocal metamaterials.Certain properties of metamaterials have made them suitable for use in various engineering fields. In this study, we investigate non-reciprocal wave propagation behavior in coupled thin beams phononics, due to time-modulation of material properties and axial loads. We compare the results for the beams which are interconnected with Winkler’s type of elastic layers and elastic or viscoelastic Pasternak layers. An analytic approach is used to discover directional band gaps and investigate wave propagation through these systems of beams, at relevant excitation frequencies. The proposed framework can be exploited in further analysis of phononic systems based on multiple beams coupled through different mediums and structural elements modeled with higher-order beam theories. PB - Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade PB - Serbian Society of Mechanics T2 - Theoretical and applied mechanics T1 - Parametrically excited unidirectional wave propagation in thin beam phononics EP - 155 IS - 2 SP - 137 VL - 49 DO - https://doi.org/10.2298/TAM221030010R ER -
@article{ author = "Rosić, Nevena and Karličić, Danilo and Cajić, Milan and Lazarević, Mihailo", year = "2022", abstract = "Wave attenuation, filtering and guiding is an ongoing topic of scientific research, as there are many opportunities for improvement of existing solutions in modern industry. One of the recent advancements has been made with the use of non-reciprocal metamaterials.Certain properties of metamaterials have made them suitable for use in various engineering fields. In this study, we investigate non-reciprocal wave propagation behavior in coupled thin beams phononics, due to time-modulation of material properties and axial loads. We compare the results for the beams which are interconnected with Winkler’s type of elastic layers and elastic or viscoelastic Pasternak layers. An analytic approach is used to discover directional band gaps and investigate wave propagation through these systems of beams, at relevant excitation frequencies. The proposed framework can be exploited in further analysis of phononic systems based on multiple beams coupled through different mediums and structural elements modeled with higher-order beam theories.", publisher = "Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade, Serbian Society of Mechanics", journal = "Theoretical and applied mechanics", title = "Parametrically excited unidirectional wave propagation in thin beam phononics", pages = "155-137", number = "2", volume = "49", doi = "https://doi.org/10.2298/TAM221030010R" }
Rosić, N., Karličić, D., Cajić, M.,& Lazarević, M.. (2022). Parametrically excited unidirectional wave propagation in thin beam phononics. in Theoretical and applied mechanics Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade., 49(2), 137-155. https://doi.org/https://doi.org/10.2298/TAM221030010R
Rosić N, Karličić D, Cajić M, Lazarević M. Parametrically excited unidirectional wave propagation in thin beam phononics. in Theoretical and applied mechanics. 2022;49(2):137-155. doi:https://doi.org/10.2298/TAM221030010R .
Rosić, Nevena, Karličić, Danilo, Cajić, Milan, Lazarević, Mihailo, "Parametrically excited unidirectional wave propagation in thin beam phononics" in Theoretical and applied mechanics, 49, no. 2 (2022):137-155, https://doi.org/https://doi.org/10.2298/TAM221030010R . .