The Characteristics of Acoustic Absorptive Material at Various Water Depth

Cheng, Jyin-Wen

30 August 2000

In general the acoustic wave is used as a detecting tool in the ocean, its application placing a sound source into ocean, then the sound may impinge involves the target by wave propagation in the ocean. Due to the reflection and scattering effect of target, part of acoustic energy will be received by transducer through the path of reflection. The goal of target identification can be achieved by signal processing finally. If a submarine wish to avoid the detection by sonar system , it should attenuate the acoustic energy . Therefore the reflected signal can not be analyzed and distinguished by sonar system .The area of underwater acoustic attenuation has been researched for camouflaging submarine purpose for many years. There are two acoustic energy attenuation methods to reduce the reflective wave and transmitted wave. One is active attenuation control, which is to understand how the destructive interference of incident acoustic wave could be achieved for acoustic energy attenuation purposes. The other one is passive acoustic attenuation technique, which rely on the attenuation performance of underwater acoustic material to reduce the acoustic energy of incident wave. To be evaluated the acoustic absorption efficiency of material. Although the efficiency of active attenuation control is better compared with passive acoustic attenuation technique, the development of active attenuation control have not been highly pursued in the commercial market for underwater application, due to the limitations in piezo-composite technology. The cost of installation and maintenance is also higher in active control. This thesis studied the acoustic absorptive material based on passive acoustic attenuation technique . It could be attenuated the acoustic energy and spectrum of reflection and transmitted wave. Therefore, the signal can not be analyzed and distinguishing by sonar system. According to Alberich acoustic absorption coating, their designs have the inherent problem of degradation under hydrostatic pressure and temperature. Thus, the objective of this thesis is to study the characteristics of the acoustic absorptive material at various water depth where the hydrostatic pressure are different. To measure the characteristics of acoustic material, an experimental system is setup, and the standard measuring method and criterion is also studied for future experimental reference. Furthermore, the different measurement parameters are discussed for accuracy of experimental results. There are five specimens tested in this experiment. The specimens are mainly made of neoprene and sawdust mixture and marked as A1¡BA2¡BA3¡BA4¡Band A5 respectively. The composites of these specimens are analyzed by x-ray diffraction meter. The physical properties and the acoustic absorption in airborne were measured before underwater hydrostatic pressure applied on these specimens. The physical properties show that the impedance of these specimens is very close to acoustic impedance of the water. Therefore, the specimen may be considered an acoustic isolator in the air. To reduce the boundaries interference, such as reflection, diffraction and scattering signal. The pulse sound is used as sound source in this underwater experiment. Moreover, the gating system is applied to capture the proper signals for analysis. The echo reduction and insertion loss are measured in the 11 to 30 kHz frequency region for acoustic absorption evaluation in this experiment. The performance of experiment is found that specimen has the echo reduction about 10 dB and the insertion loss about 15 dB at 1 bar hydrostatic pressure. But when the hydrostatic pressure was increased to 5 bar, the echo reduction and insertion loss were both decreased by 3 dB. In addition, when the hydrostatic pressure was loaded at 10 bar, the echo reduction was decreased by 8 dB, and the insertion loss was decreased by 5 dB. It became evident that the efficiency of acoustic absorption is degraded under the higher hydrostatic pressure.

insertion loss

acoustic absorption

echo reduction

source level

pulse sound

acoustic impedance

Low Loss VHF and UHF Filters for Wireless Communications Based on Piezoelectrically-Transduced Micromechanical Resonators

Dewdney, Julio Mario

01 January 2012

For the past decade, a great deal of research has been focused towards developing a viable on-chip solution to replace the current state-of-the-art VHF and UHF filters based on SAW and FBAR technologies. Although filters based on SAW and FBAR devices are capable of fulfilling the basic requirements needed for IF and RF bandpass filtering and reference signal generation, an alternative solution that can enable the next generation of multi-frequency and multi-mode transceivers while enabling size and price reduction by allowing the manufacturing of single-chip monolithic RF transceivers is highly desired. In response to these new needs, piezoelectrically-transduced micromechanical filters have emerged as a plausible alternative to outperform current dominant technologies in size, cost, and IC manufacturing compatibility without compromising device performance in terms of insertion loss, rejection, power handling and linearity. This dissertation presents the design, fabrication, characterization and experimental analysis of low-loss VHF and UHF filters for wireless communication applications, based on piezoelectrically-transduced micromechanical resonators. The resonators employed in this work for the implementation of microwave filters, resonate in contour-mode shapes, which differ from commercially available thickness-mode FBAR resonators, for which the thickness sets the resonance frequency. The employment of contour-mode designs facilitate simultaneous synthesis of multiple frequencies on the same substrate through CAD layout-defined lateral dimensions, thus avoiding the complexity demanded by FBAR devices for the precise control of the piezoelectric layer thickness. Moreover, filters composed of acoustically-coupled piezoelectrically-transduced resonators operating at higher order modes with sizes up to 10 times smaller than their SAW counterparts operating at the same UHF range have been successfully implemented, without jeopardizing the key filter specifications. Throughout this dissertation, piezoelectrically-transduced MEMS filters based on mechanically, electrically and acoustically coupled contour-mode resonator(s) or resonator arrays were designed and fabricated. Filters with insertion loss as low as 2.6 dB at IF frequencies and 4.0 dB at RF frequencies have been demonstrated. Moreover, synthesized filters with extremely narrow bandwidth of 0.1 % and 0.2 % at frequencies between 160 MHz and 215 MHz have been developed, which comply the specifications for IF filters for GSM handsets. This particular type of filters each consist of just one single high-Q resonator, which leverages single crystalline silicon as the major part of their structure to obtain the sufficient quality factor required for the implementation of such small bandwidth. Among the most significant results, this dissertation presents two thin film piezoelectrically-transduced monolithic filters operating at 482 MHz and 536 MHz, which can be interfaced directly to a 377  antenna without the need of external matching components. This dissertation also has conducted a systematic comparison between commercial available SAW filters and the MEMS filters synthesized using piezoelectrically-transduced resonators. Parameters such as group delay and third intermodulation (IP3) have been measured and carefully compared. Evidentially, most of the fabricated piezoelectrically-transduced filters developed by this work have exhibited a similar or superior performance as compared to their commercial SAW counterparts

Bandwidth

Insertion Loss

MEMS

Piezoelectric

Quality Factor

Electrical and Computer Engineering

Mechanical Engineering

Estudo de barreiras acusticas ao ar livre, sob a perspectativa de eficiencia e qualidade sonora

Neto, Maria de Fatima Ferreira

24 May 2002

Orientador: Stelamaris Rolla Bertoli / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil / Made available in DSpace on 2018-08-01T21:56:33Z (GMT). No. of bitstreams: 1 Neto_MariadeFatimaFerreira_M.pdf: 3390488 bytes, checksum: 675867527ebf6bb839c6a6e6317a33a3 (MD5) Previous issue date: 2002 / Resumo: o estudo de barreiras acústicas ao ar livre é o objeto de estudo deste trabalho. Esse estudo abrange duas perspectivas:o desempenho acústico das barreiras e a qualidade sonora. Sobre as duas perspectivas,foram realizadas avaliações que compreendem aspectos objetivos e subjetivos. Entende-se como aspectos objetivosos resultadosdas medidasfisicas,como a perda por inserção das barreiras, para a avaliação do desempenho acústico e, os resultados dos parâmetros psicoacústicos definidos por Zwicker, para a avaliação da qualidade sonora. Em relação aos aspectos subjetivos, foi constituído um júri, que opinou sobre a sensação percebida de um estímulo sonoro,recebido através da barreira.Os resultadosdas avaliaçõesde ambos os aspectos, foram comparados a fim de se obter a avaliação final do desempenho das barreiras.A obstrução visual da fonte sonora, por uma barreira acústica, pode causar redução de ruído, nem sempre verdadeira.Os resultados mostram que o desempenho real das barreiras nem sempre corresponde ao desempenho subjetivo porém,reforçam a idéia de que as barreiras acústicas atuam como um auxiliar para a redução de ruído ao ar livre. Há fortes indícios de que os parâmetros psico acústicos poderão ser usados como método de desempenho de barreiras (qualidadesonora) / Abstract: The outdoor acoustic barriers study is the object of this work. This study includes two perspectives: the acoustic barrier performance and the sound quality. These two perspectives were evaluated considering objective and subjective aspects. The physical results, such as the barrier insertion loss, was used to evaluate the objective acoustic performance.The results from the psychoacoustic parameters defined by Zwickerwere used to objectively evaluate the sound quality. Regarding the subjective aspects, a jury was fonned to judge the perceived sensation ftom sonorous stimulus received through the barrier. The experimentalresults of both aspects were comparedto get the final evaluationof the acoustic barriers performance.The sound source visual obstruction caused by an acoustic barrier, ean cause noise reduction which is not always true. The results show that the barrier real performance does not always correspond to the subjective perfomacee,but also reinforce the idea that the acoustic barriersis an auxiliar element to reduce outdoor noise. There are strong evidencesthat the psychoacoustic parameters can be used as a means of barrier performace evaluation (soundquality) / Mestrado / Edificações / Mestre em Engenharia Civil

Controle de ruído

Acústica

Som

Construção - Desempenho

Acoustic barrier

Attenuation

Insertion loss

Sound quality

Psyehoacoustics parameters

Měření vlastností třífázovách odrušovacích filtrů / Measurement of three-phase EMC filters

Tomašák, Lukáš

Unknown Date

The aim of this semestral project was to propose the measuring system for measuring three-phase EMI filters in symmetrical, asymmetrical and non-symmetrical mode according to information from supplier of the filters. The major part of this project was focused on measuring the frequency dependence of the insertion loss of three-phase EMI filters in impedance systems 50?/50?, 0,1?/100 ? and 100?/0,1?. It was determined that results approximately agree with specifications in datasheets.

Proposed Revisions to Procedures for Testing and Evaluating Radiating Noise Sources from Small Firearms, including the ANSI/ASA S12.42-2010 Procedure

Sarray, Sadreddine

26 May 2020

The escalating cost of claims for Noise Induced Hearing Loss (NIHL) in the Canadian Armed Forces (CAF) supports the need to review and upgrade current hearing conservation practices. The rise of these escalating costs and the need to protect the military personnel when training in extreme noise conditions has initiated an engineering investigation within the Department of National Defence (DND) and in collaboration with the University of Ottawa, to review the existing standards in the field of hearing protection test and evaluation, to propose technical recommendations and to identify the possible technical problems and gaps impacting the quality of the existing procedures. This study dealt with the estimation of the protection capability of Hearing Protection Devices (HPDs) in the case of high-level impulse noise from small firearms weapons that are a particularly damaging source of noise in military environments, representing an important cause of NIHL. Testing and evaluation based on a system engineering approach have been used in this work introducing: - A new testing approach, based on ANSI/ASA S12.42-2010, for testing HPDs when the impulse noise is generated by a small firearm; - A new evaluation approach for HPD performance, introducing a characterization approach using a sub-band analysis for dealing with impulse noise generated by a small firearm. The effectiveness of HPDs, taking into account the physiological human limitations induced by Bone Conduction (BC), is computed by using an innovative method attempting to better prevent the risk of NIHL when using small firearms.

Noise Induced Hearing Loss

Impulse Peak Insertion Loss

Bone Conduction

Octave Band

Source Characterization using an Experimental Method and Prediction of Insertion of the Exhaust System

Chhabra, Manish

January 2018

No description available.

Mechanical Engineering

Acoustics

Experimental Methods

Multi-Load

Signal Processing

Insertion Loss

Optimal Design of an Enclosure for a Portable Generator

Blanks, Joseph E.

07 February 1997

A simple, effective design for enclosing portable generators to reduce the radiated noise is an idea that seems to be desired by the consumers in this market. This investigation is to determine the feasibility of producing such an enclosure for a generator. Several engineering aspects are incorporated in the design of the enclosure. The first, and probably the most paramount, are the acoustical effects of the enclosure itself. The investigation follows the theories for insertion loss of a close fitting enclosure. The thesis examines the system behavior of a close fitting enclosure that most acoustic text books ignore and how the material stiffness, density and source-to-enclosure distance affect the insertion loss and effectiveness of the enclosure. Measured and theoretical sound pressure level around the generator before and after the application of the enclosure are presented using standards described by ISO standard 1344. The second important consideration for the enclosure design involves the heat transfer characteristics. The requirements of cooling air to the generator are discussed. Also presented are some acoustic design considerations to prevent any "direct line of sight" to any of the necessary openings which will help in the overall insertion loss. The use of an optimal engineering design technique is presented, demonstrating its strengths and weakness in this application. The optimization method used for the study is the Hooke and Jeeves, or pattern search method. This method solved for the optimum material properties in approximately 30 iterations depending on the initial starting points and the desired weighting parameters. / Master of Science

acoustic isolation

insertion loss

passive acoustical treatment

close fitting enclosure

Optimization

acoustic enclosure

STUDIES TO IMPROVE EXHAUST SYSTEM ACOUSTIC PERFORMANCE BY DETERMINATION AND ASSESSMENT OF THE SOURCE CHARACTERISTICS AND IMPEDANCE OPTIMIZATION

Zhang, Yitian

01 January 2016

It is shown that the relationship between an impedance change and the dynamic response of a linear system is in the form of the Moebius transformation. The Moebius transformation is a conformal complex transformation that maps straight lines and circles in one complex plane into straight lines and circles in another complex plane. The center and radius of the mapped circle can be predicted provided that all the complex coefficients are known. This feature enables rapid determination of the optimal impedance change to achieve desired performance. This dissertation is primarily focused on the application of the Moebius transformation to enhance vibro-acoustic performance of exhaust systems and expedite the assessment due to modifications. It is shown that an optimal acoustic impedance change can be made to improve both structural and acoustic performance, without increasing the overall dimension and mass of the exhaust system. Application examples include mufflers and enclosures. In addition, it is demonstrated that the approach can be used to assess vibration isolators. In many instances, the source properties (source strength and source impedance) will also greatly influence exhaust system performance through sound reflections and resonances. Thus it is of interest to acoustically characterize the sources and assess the sensitivity of performance towards source impedance. In this dissertation, the experimental characterization of source properties is demonstrated for a diesel engine. Moreover, the same approach can be utilized to characterize other sources like refrigeration systems. It is also shown that the range of variation of performance can be effectively determined given the range of source impedance using the Moebius transformation. This optimization approach is first applied on conventional single-inlet single-outlet exhaust systems and is later applied to multi-inlet multi-outlet (MIMO) systems as well, with proper adjustment. The analytic model for MIMO systems is explained in details and validated experimentally. The sensitivity of MIMO system performance due to source properties is also investigated using the Moebius transformation.

transmission loss

insertion loss

2-load measurement

Moebius transformation

source properties

multi-inlet multi-outlet

Acoustics, Dynamics, and Controls

A generic approach for the study of higher-order mode propagation in circular ducts with simple aperture devices

Hu, Yikun

January 2007

The aim of the work reported in this thesis is to establish a generic approach for the study of the propagation of higher-order modes in ducts of circular cross section when a simple aperture device is installed in the duct. Additionally to describe the effects of the simple aperture device on the whole in duct acoustic field, especially in the frequency range after the first higher-order mode cuts on. The approach, which is based on approximating each higher-order mode as an uncoupled mode, requires an accurate and effective decomposition of the in duct field in the higher frequency range. In the theoretical work for the propagation of the higher-order modes in circular ducts, one established model to describe the open end of the duct is considered. Another model to describe the sound source (both plane wave source and point source) and the boundaries between the aperture device and the main duct is proposed. Combining the two models together, a revised model to describe the whole acoustic system is obtained and used to carry out the in duct field decomposition in the higher frequency range. From this the amplitudes of various higher-order modes are obtained. Experimental investigations have also been carried out to determine the applicability of this model. The experimental work can be divided into two groups: reference measurements for the inputs to the models and direct measurements of the sound fields. The reference measurements are used to obtain the strength of the sound source. The direct measurements are used to compare with the results obtained from the theoretical calculations. Through the comparison, the errors and the applicability of the theoretical model are established. It is shown that this approach to the problem may be used in the normalized wave number region up to k * R -< 7 , which is nearly four times the plane wave region and includes sixteen propagating higher-order modes. By determining the amplitudes of the higher-order modes, the whole in-duct acoustic field is fully decomposed into individual model contributions and can be reconstructed in detail. In order to get a complete and coordinate-independent description of the effects of installing different simple aperture devices, the power radiated out of the open end of - i - the duct is calculated in the fonn of different single modes. Additionally the insertion losses for different aperture device situations are also obtained. Then through the comparison of the powers and the insertion losses, it is possible to find an effective and direct way to express the effects of installing different simple aperture devices in a duct.

620.2

A TRANSFER MATRIX APPROACH TO DETERMINE THE LOW FREQUENCY INSERTION LOSS OF ENCLOSURES INCLUDING APPLICATIONS

He, Shujian

01 January 2017

Partial enclosures are commonly used to reduce machinery noise. However, it is well known in industry that enclosures sometimes amplify the sound at low frequencies due to strong acoustic resonances compromising the performance. These noise issues are preventable if predicted prior to prototyping and production. Though boundary and finite element approaches can be used to accurately predict partial enclosure insertion loss, modifications to the model require time for remeshing and solving. In this work, partial enclosure performance at low frequencies is simulated using a plane wave transfer matrix approach. Models can be constructed and the effect of design modifications can be predicted rapidly. Results are compared to finite element analysis and measurement with good agreement. The approach is then used to design and place resonators into a sample enclosure. Improvements in enclosure performance are predicted using plane wave simulation, compared with acoustic finite element analysis, and then validated via measurement.

Partial Enclosures

Plane Wave Simulation

Insertion Loss

Finite Element Method

Acoustic Resonator

Passive Noise Control

Acoustics, Dynamics, and Controls