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21	Numerical solutions for acoustic Rayleigh wave scattering in discontinous media. Munasinghe, Mohan, 1945- January 1973 (has links) No description available. Acoustic radiation pressure Rayleigh waves -- Scattering.
22	Experimental and theoretical investigation of acoustic radiation from structrues due to stress waves generated by impact / Abrishaman, Mohamad January 1973 (has links) No description available. Engineering Acoustic radiation pressure Stress waves
23	Acoustic radiation from premixed flames disturbed by turbulent velocity fluctuations Mohan, Sripathi 07 June 2004 (has links) No description available. Flame Acoustic radiation pressure Combustion noise Flame Acoustic radiation pressure Combustion Noise
24	The vibrational response of and the acoustic radiation from thin-walled pipes, excited by random fluctuating pressure fields / Rennison, David Charles. January 1976 (has links) (PDF) Thesis (Ph.D.) -- University of Adelaide, Department of Mechanical Engineering, 1978.
25	An acoustical study of the properties and behaviour of sea ice Xie, Yunbo January 1991 (has links) The primary goal of this thesis is to utilize acoustical radiation from the Arctic ice cover to infer the response of sea ice to environmental forcing, and to sense remotely the mechanical properties of the ice. The work makes use of two experiments in the Canadian arctic undertaken by the Ocean Acoustics Group of the Institute of Ocean Sciences, which resulted in an extensive body of acoustical and related environmental data. Cracking sounds originating from both first and multi-year ice fracturing processes are analyzed. Data used in this thesis also include sound made by artificial sources. The survey of in situ ice conditions by air photography and synthetic radar imaging, and a crack distribution map based on observations made with a 3-D hydrophone array, reveal, for the first time, a close correlation between thermal cracking events and ice type. It is shown that most of the thermal cracks occur in irregular multi-year ice where there are exposed, snow-free surfaces. The study shows that acoustical radiation from some cracks implies a slip-stick seismic movement over the faults, and some cracks tend to radiate more high frequency sound downwards rather than sideways. This phenomenon is most clearly apparent in sounds made by artificial sources. Another interesting finding from this study is that the sound of cracking ice does not always exhibit a vertical dipole radiation pattern, and some cracks due to thermal tension on smooth first year ice radiate more energy horizontally. The observations have motivated the development of various analytical models. These models allow the observed acoustical features to be related to the length and depth of a crack, the thickness of the ice cover and its Young's modulus. The models also show that maximum sound radiation from a crack is in the direction of external forcing. Finally, it is found that noise due to rubbing between ice floes exhibits a narrow band spectrum. This phenomenon is investigated and a linear model derived shows that the observed peak frequency is that of the first mode horizontal shear wave triggered by frictional effects at the ice floe edge. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate Sea ice -- Remote sensing Ice -- Acoustic properties Acoustic radiation pressure
26	Active control of acoustic radiation due to discontinuities on thin beams Frampton, Kenneth D. 05 September 2009 (has links) Two experiments were conducted to study the active control of acoustic radiation due to discontinuities on thin beams. One experiment investigated the radiation from a clamped end condition and the other investigated the radiation from a blocking mass. The beams were excited by subsonic flexural traveling waves which "scattered" (or produced reflected and transmitted traveling and near-field waves) when they encountered the discontinuity. This "scattering" produced supersonic wave number components in the beam vibrational response which were responsible for the acoustic radiation. The main purpose of these experiments was to control the acoustic radiation from discontinuities on beams by actively changing the characteristics of the "scattered" waves with control actuators. In each experiment the system was disturbed by a harmonic, subsonic input from a point force shaker. Control actuator( s) (in the form of shakers and piezoelectric actuators) were attached to the beam near the discontinuity. Error microphone(s) were positioned in the acoustic field which supplied an error signal to the digital controller. The digital controller employed was the filtered-x version of the adaptive LMS algorithm programmed on a dedicated signal processing board in a personal computer. An array of accelerometers was attached to the beam which were used to decompose the complex amplitudes of an assumed displacement equation. By applying a spatial Fourier transform to the displacement equation the wavenumber components present in the beam displacement were calculated. This aided in the investigation of the mechanism by which control of the acoustic field was affected. Results from these experiments showed that large attenuations at the error microphones were possible (as much as 50dB) along with global attenuation of the acoustic field. The mechanism by which the control of the acoustic far-field was achieved was demonstrated as a decrease in the supersonic wavenumber components in the beam vibrational response. / Master of Science LD5655.V855 1991.F736 Acoustic radiation pressure -- Research
27	Investigation of combined feedback and adaptive control of cylinder vibrations Finefield, John K. 06 October 2009 (has links) A double loop control scheme is developed to control broadband acoustic radiation from a cylinder. An analog feedback loop is investigated and developed to add damping to the cylinder at particular frequencies of interest. Circuitry is developed and refined to condition Polyvinylidene Fluoride Filnl (PVDF) sensor outputs as strain rate signals. The strain rate signals are used in the feedback loop to provide damping to the structure. In conjunction with the feedback loop a feedforward loop is also implemented. The feedforward loop utilizes the filtered-x LMS algorithm. The result of combining the two control laws was unknown prior to implementation.The resulting control scheme shows that the feedback control law is effective in attenuating undesirable frequency components in the feedforward error sensor. This results in an error sensor signal which is highly correlated with the disturbance. With a more correlated error signal a more effective feedforward control is achieved. The resulting control system provides acoustic control over a wide range of frequencies. The filtered-x LMS algorithm is applied to an effective acoustic radiator. The feedback loop provides for broadband control of the structure. Typical double loop controller results show power spectrum reductions of 35 dB for an effective acoustic radiator and reductions of 10 dB for other frequencies in the excitation range. In addition, the measured controlled plant transfer functions show significant reductions in the transfer of energy through the structure. Overall Sound Pressure Level (SPL) reduction in the acoustic field generated by the cylinder in response to a random excitation with a harmonic component was 4.9 dB for feedback, 18.4 dB for feedforward, and 25.2 dB for the double loop controller. / Master of Science LD5655.V855 1992.F563 Acoustic radiation pressure Cylinders -- Vibration
28	The vibrational response of and the acoustic radiation from thin-walled pipes, excited by random fluctuating pressure fields / by D.C. Rennison Rennison, David Charles January 1976 (has links) xi, 265 leaves : photos., diags ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Mechanical Engineering, 1978 Pipe, Brass Vibration. Pipe, Plastic Vibration. Pipe, Steel Vibration. Acoustic radiation pressure.
29	Simulação de um arranjo esférico de alto-falantes usando um modelo de membrana flexível / Simulation of a spherical loudspeaker array using a flexible membrane model Cóser, Lucas Fernando 08 September 2010 (has links) Orientador: José Roberto de França Arruda / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-16T12:19:39Z (GMT). No. of bitstreams: 1 Coser_LucasFernando_M.pdf: 3895849 bytes, checksum: 203a0d7be9958aaa628e2b404ad566a9 (MD5) Previous issue date: 2010 / Resumo: Duas abordagens para a simulação do campo sonoro produzido por um arranjo esférico de alto-falantes são apresentadas e comparadas a resultados experimentais. Na primeira, modos estruturais obtidos da analise modal experimental da membrana são usados em simulações vibroacusticas por elementos de contorno no software LMS Virtual.Lab®. Na segunda, adota-se uma solução analítica baseada na expansão dos harmônicos esféricos de um padrão de velocidades sobre uma calota esférica. Os resultados são apresentados em termos de potencia sonora e de padrões de diretividade para o arranjo. No primeiro caso, são observadas as mesmas tendências na faixa de baixa freqüência em todas as curvas analisadas, havendo distorções consideráveis na faixa de alta freqüência para a solução analítica devido ao fato desta não incluir os efeitos dos modos estruturais da membrana. Por outro lado, os padrões de diretividade demonstram um alto grau de similaridade em todos os casos analisados e não são fortemente afetados pelos modos estruturais da membrana. As diferenças observadas nos resultados e as amplificações não realistas nas curvas de potencia sonora das simulações são causadas por três fatores principais: modos de cavidade acústica do arranjo esférico, desconsideração do acoplamento acústico entre os alto-falantes durante seus funcionamentos e utilização de um mesmo conjunto de FRFs para todos os alto-falantes. De uma forma geral, pode-se dizer que a simulação usando o modelo de membrana flexível melhora consideravelmente a previsão da potencia sonora na alta freqüência, o que não pode ser obtido com o modelo analítico comumente usado na analise de arranjos esféricos de alto-falantes / Abstract: Two approaches for sound field prediction of a spherical loudspeaker array operation are presented and compared to experimental measurements. In the first, real membrane modes from experimental modal analysis are used as input for BEM vibroacoustic simulations using LMS Virtual.Lab® software. In the second, an analytical solution based on the spherical harmonic expansion of an idealized velocity pattern over the spherical array is used. Results are presented in terms of sound power and directivity patterns, showing that the former has the same trend in all comparisons for the low frequency range, and that the analytical solution cannot be used for the high frequency range since it does not include the effect of the flexible membrane modes. Directivity patterns, however, show a good degree of similarity in all cases, and are not strongly affected by the flexible membrane modes. The differences found in the results and the unrealistic amplifications in the sound power curves from the simulations are caused mainly by three factors: acoustic cavity modes of the array, neglecting the acoustic coupling among loudspeakers for the operating condition and utilization of the same set of FRFs for all loudspeakers in the array. In a general way, it can be said that the flexible membrane modeling improves considerably the prediction of radiated sound power in the high frequency range, which cannot be obtained by the analytical model commonly used in the analysis of spherical loudspeaker arrays / Mestrado / Mecanica dos Sólidos e Projeto Mecanico / Mestre em Engenharia Mecânica Pressão de radiação acústica Ondas sonoras Alto-falantes Acoustic radiation pressure Sound waves Loudspeaker
30	Optimal state estimation for the optimal control of far-field acoustic radiation pressure from submerged plates Morris, Russell A. 23 June 2009 (has links) Sound pressure radiating from vibrating structures submerged in fluid, as in the case of a vibrating panel in a submarine hull, is usually undesirable. An optimal control methodology for the suppression of far-field acoustic radiation pressure from submerged structures has been developed by Meirovitch (ref. 1). The linear modal state feedback control law developed implies that the full state (displacements and velocities) is available, perhaps through measurements. However, in practice, it is not always feasible to measure the full modal state vector for feedback. To permit practical implementation of the feedback control law, an optimal stochastic state estimator, or Kalman-Bucy filter, has been developed here for incorporation into the control system design. The development has been specialized to a uniform simply supported rectangular plate. / Master of Science LD5655.V855 1992.M678 Acoustic radiation pressure Control theory Plates (Engineering) -- Vibration

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