Design Optimization and Validation of Phononic Crystal Plates for Manipulation of Elastodynamic Guided Waves

  

Design Optimization and Validation of Phononic Crystal Plates for Manipulation of Elastodynamic Guided Waves

Design Optimization and Validation of Phononic Crystal Plates for Manipulation of Elastodynamic Guided Waves (Springer Theses) by Saeid Hedayatrasa
English | 5 Mar. 2018 | ISBN: 3319729586 | 223 Pages | PDF | 14.41 MB
This thesis proposes novel novel designs of phononic crystal plates (PhPs) allowing ultra-wide controllability frequency ranges of guided waves at low frequencies, with promising structural and tunability characteristics.


This thesis proposes novel novel designs of phononic crystal plates (PhPs) allowing ultra-wide controllability frequency ranges of guided waves at low frequencies, with promising structural and tunability characteristics. It reports on topology optimization of bi-material-layered (1D) PhPs allowing maximized relative bandgap width (RBW) at target filling fractions and demonstrates multiscale functionality of gradient PhPs. It also introduces a multi-objective topology optimization method for 2D porous PhPs allowing both maximized RBW and in-plane stiffness and addresses the critical role of considering stiffness in designing porous PhPs. The multi-objective topology optimization method is then expanded for designing 2D porous PhPs with deformation induced tunability. A variety of innovative designs are introduced which their maximized broadband RBW is enhanced by, is degraded by or is insensitive to external finite deformation. Not only does this book address the challenges of new topology optimization methods for computational design of phononic crystals; yet, it demonstrated the suitability and applicability of the topological designs by experimental validation. Furthermore, it offers a comprehensive review of the existing optimization-based approaches for the design of finite non-periodic acoustic metamaterial structures, acoustic metamaterial lattice structures and acoustic metamaterials under perfect periodicity.
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