Dynamic Instability of Follower Forced Euler Bernoulli Cantilever Beam With Tip Mass
This work focuses on the stability analysis of an Euler Bernoulli cantilever beam with a tip mass at the free end, subject to a follower force. This can serve as a viable model for analysis of elastic instability occurring due to fluid-structure interaction of structural components submerged in flui...
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| Main Authors | , |
|---|---|
| Format | Journal Article |
| Language | English |
| Published |
16.11.2023
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.48550/arxiv.2311.10264 |
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| Abstract | This work focuses on the stability analysis of an Euler Bernoulli cantilever
beam with a tip mass at the free end, subject to a follower force. This can
serve as a viable model for analysis of elastic instability occurring due to
fluid-structure interaction of structural components submerged in fluids and
gases. A linear model with appropriate boundary conditions is developed using
the energy formulation. The characteristic equation of the linear model
establishes the relationship between the pulsation of the beam and the
magnitude of applied follower force. The evolution of temporal eigenvalues with
respect to the magnitude of the follower force helps in evaluation of the
critical follower forces responsible for different modes of instability. The
presented model demonstrates the existence of only dynamic instability in the
system. Furthermore, the model predicts that both types of the dynamic
instability i.e., flutter and divergence, are possible in the system. |
|---|---|
| AbstractList | This work focuses on the stability analysis of an Euler Bernoulli cantilever
beam with a tip mass at the free end, subject to a follower force. This can
serve as a viable model for analysis of elastic instability occurring due to
fluid-structure interaction of structural components submerged in fluids and
gases. A linear model with appropriate boundary conditions is developed using
the energy formulation. The characteristic equation of the linear model
establishes the relationship between the pulsation of the beam and the
magnitude of applied follower force. The evolution of temporal eigenvalues with
respect to the magnitude of the follower force helps in evaluation of the
critical follower forces responsible for different modes of instability. The
presented model demonstrates the existence of only dynamic instability in the
system. Furthermore, the model predicts that both types of the dynamic
instability i.e., flutter and divergence, are possible in the system. |
| Author | Singh, Tarunraj Saha, Premjit |
| Author_xml | – sequence: 1 givenname: Premjit surname: Saha fullname: Saha, Premjit – sequence: 2 givenname: Tarunraj surname: Singh fullname: Singh, Tarunraj |
| BackLink | https://doi.org/10.48550/arXiv.2311.10264$$DView paper in arXiv |
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| Snippet | This work focuses on the stability analysis of an Euler Bernoulli cantilever
beam with a tip mass at the free end, subject to a follower force. This can
serve... |
| SourceID | arxiv |
| SourceType | Open Access Repository |
| SubjectTerms | Physics - Classical Physics |
| Title | Dynamic Instability of Follower Forced Euler Bernoulli Cantilever Beam With Tip Mass |
| URI | https://arxiv.org/abs/2311.10264 |
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