In this study, dispersion properties of phononic crystals in different design were investigated experimentally by using FFT algorithm and numerically by using finite elements method. In the first Brillouin zone, frequencies corresponding to the wave vector (k) obtained and phononic band diagram were plotted along the M–Г–X–M path for the two dimensional phononic crystals which were periodically placed composite cylinders with square lattice and quasi-periodic (Fibonacci sequence). In the periodic phononic crystal designs, partial band in Г–X direction between 4 kHz–7 kHz in the structure consist of full composite cylinders, full band between 2 kHz–3 kHz range in the numerically studied C-shaped phononic crystal, and partial bands in Г–X direction between in the 3 kHz–4 kHz and 3.5 kHz–6.7 kHz ranges in Fibonacci phononic crystal were observed. In order to compare validity of the results, in the finite structure the transmission losses were calculated numerically and measured experimentally. When the phononic band structure compare with the obtained transmission losses, it was observed that the results were compatible.
Primary Language | Turkish |
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Subjects | Architecture, Engineering |
Journal Section | Articles |
Authors | |
Publication Date | September 30, 2018 |
Published in Issue | Year 2018 Volume: 33 Issue: 3 |