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Boundary-Induced Modal Study Tool for Beam Vibrations
This study presents a comprehensive investigation into the modal properties of Euler-Bernoulli beams, employing a comparative approach that integrates Analytical and experimental methodologies. The focus is placed on evaluating modal characteristics under various boundary conditions to understand their influence on structural behavior. To facilitate this exploration, a Graphical User Interface (GUI) tool is being developed, allowing users to interactively analyze and visualize the modal properties. The Analytical analysis is rooted in the Euler-Bernoulli beam theory, offering a fundamental understanding of the modal properties based on mathematical derivations. This approach serves as a benchmark for validating and comparing results obtained from experimental techniques. Experimental analysis involves the use of sensors to capture vibration data, allowing for the extraction of modal frequencies and mode shapes. This empirical approach provides real-world validation of theoretical predictions, considering the complexities and uncertainties present in physical systems. This GUI tool is being developed to explore the impact of diverse boundary conditions on Euler-Bernoulli beam modal properties interactively, deepening users’ understanding of support configuration effects. This tool systematically compares modal frequencies and shapes from Analytical and experimental analyses, offering valuable insights into boundary condition influences. From a Structural Health Monitoring (SHM) perspective, the interactive GUI enhances comprehension, contributing to modal analysis advancement. This holistic approach has implications for optimizing designs, validating models, and improving predictive capabilities in engineering applications and SHM implementations.
Boundary-Induced Modal Study Tool for Beam Vibrations
This study presents a comprehensive investigation into the modal properties of Euler-Bernoulli beams, employing a comparative approach that integrates Analytical and experimental methodologies. The focus is placed on evaluating modal characteristics under various boundary conditions to understand their influence on structural behavior. To facilitate this exploration, a Graphical User Interface (GUI) tool is being developed, allowing users to interactively analyze and visualize the modal properties. The Analytical analysis is rooted in the Euler-Bernoulli beam theory, offering a fundamental understanding of the modal properties based on mathematical derivations. This approach serves as a benchmark for validating and comparing results obtained from experimental techniques. Experimental analysis involves the use of sensors to capture vibration data, allowing for the extraction of modal frequencies and mode shapes. This empirical approach provides real-world validation of theoretical predictions, considering the complexities and uncertainties present in physical systems. This GUI tool is being developed to explore the impact of diverse boundary conditions on Euler-Bernoulli beam modal properties interactively, deepening users’ understanding of support configuration effects. This tool systematically compares modal frequencies and shapes from Analytical and experimental analyses, offering valuable insights into boundary condition influences. From a Structural Health Monitoring (SHM) perspective, the interactive GUI enhances comprehension, contributing to modal analysis advancement. This holistic approach has implications for optimizing designs, validating models, and improving predictive capabilities in engineering applications and SHM implementations.
Boundary-Induced Modal Study Tool for Beam Vibrations
Lecture Notes in Civil Engineering
Abdullah, Waleed (editor) / Chaudhary, Muhammad Tariq (editor) / Kamal, Hasan (editor) / Parol, Jafarali (editor) / Almutairi, Abdullah (editor) / Rambala, V V S Mahesh (author) / Saikam, Srihari (author) / Polepally, Govardhan (author) / Pasupuleti, Venkata Dilip Kumar (author) / Kalapatapu, Prafulla (author)
International Workshop on Civil Structural Health Monitoring ; 2024 ; Kuwait City, Kuwait
2024-07-01
17 pages
Article/Chapter (Book)
Electronic Resource
English
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