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41.
A.O. Borisyuk 《Flow, Turbulence and Combustion》1998,61(1-4):269-284
An acoustic model of a larger human blood vessel is developed. This model takes into account the main features of the acoustic
generation and propagation of noise in the human chest from the source (turbulent pressure fluctuations in blood flow) to
a receiver resting on the skin, and allows the consideration of a simple stenotic narrowing in the vessel. The low Mach number
turbulent wall pressure models of Corcos, Chase, Ffowcs Williams, and Smol'yakov and Tkachenko are used to describe random
sources in the vessel. The relationships obtained permit one to analyse the dependence of the resultant acoustic field in
the thorax on the parameters of the blood flow and the vessel, and show the possibility of finding characteristic signs of
the presence of a stenosis by comparison of noise fields from intact and diseased arteries.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
42.
定态火焰在可燃预混气中产生的压力波 总被引:1,自引:0,他引:1
火焰在可燃预混气中传播时,在火焰面前方产生一道压力波。忽略点火及火焰的初期加速,仅考虑火焰达到稳定传播速度的情况。用Openheim自相似解分析流场,得到相应的控制方程及定解条体;用自适应步长的四阶Runge-Kutta法对方程积分,讨论了流场压力波结构及弱激波近似声波解;认为火焰为间断面,能量释放在火焰面后瞬时完成。利用火焰面两侧的能量关系,得到了火焰位置、燃速及对应C-J条件的火焰位置、C-J燃速。 相似文献
43.
Constitutive computational modelling foundation of piezoelectronic microstructures and application to high-frequency microchip DSAW resonators 总被引:1,自引:0,他引:1
This paper establishes a piezoelectric constitutive computational approach based on generalized eigenvalue and multivariable
finite element solutions with potential applications to accurate and effective analysis of layered piezoelectric microstructures
of arbitrary geometries and different anisotropic materials, to ease the limitation of current computer capacity in analyzing
large-scale high-frequency disturbed surface acoustic waves (DSAW) by mounted electrodes in piezoelectric devices such as
microchip SAW resonators. A new incompatible generalized hybrid/mixed element GQM5 is also proposed for improving predictions
of the piezoelectric surface mount thermal stresses that are shear-dominated. The (generalized) plane strain constitutive
model is numerically verified for piezoelectric finite element computation. With the help of computational piezoelectricity
(electro-mechanics) for general layered structures with metal electrodes and anisotropic piezoelectric substrates, some new
interesting, reliable and fundamental constitutive finite element results are obtained for high-frequency piezoelectric and
mechanical SAW propagations and can be used for further applications. The ST-cut FEA results agree quite well with available
exact and lab solutions for free surface case.
The project supported by SRF for ROCS, SEM of China, the past Rutgers Univer-Seiko Epson Joint Fund and Zhejiang Provincial
NSF 相似文献
44.
V. G. Pimshtein 《Journal of Applied Mechanics and Technical Physics》2007,48(5):636-640
The velocity of propagation of toroidal and oblique vortices formed in subsonic and supersonic turbulent jets under longitudinal
internal and transverse external excitation by finite-amplitude saw-tooth acoustic waves is studied experimentally. It is
demonstrated that the convection velocity of vortices is not constant, and the character of its variation depends on the vortex
shape.
__________
Translated from Prikladnaya Mekhanika i Tekhnicheskaya Fizika, Vol. 48, No. 5, pp. 21–25, September–October, 2007. 相似文献
45.
Maryam Kowsar 《Molecular physics》2019,117(1):110-121
Recently, we reported molecular dynamics simulations of stable cyclotron motions of ions and water molecules in a carbon nanotorus, induced by different rotating electric fields (EFs). This study is devoted to the calculation and characterisation of the magnetic field (MF) induced by these cyclotron motions. Results show that carbon nanotorus containing ions or water molecules acts as an EF-to-MF transducer. Components of the instantaneous induced MF show large-scale oscillations superimposed by strong fluctuations arising respectively from overall circular motion and random collisions of moving species. Analysis of the space-dependencies of the induced MF components shows that the induced MF is maximum at the centre of the nanotorus. The MF induced by cyclotron motion of ions follows the orders B(Ca2+)?>?B(Na+)?≈?B(K+) at E?=?1.0?V/nm and B(E?=?1.0?V/nm)?>?B(E?=?0.5?V/nm)?>?B(E?=?0.1?V/nm). The time-averaged induced MF of the cyclotron motion of 81 water molecules is almost 102 times stronger than that of ions. The induced MF strength is decreased with increasing distance from nanotorus and decays effectively at about 17.3–18.1 and 15.9–18.2?nm along the z-axis of the nanotorus for ions and water molecules, respectively. The magnitude of the MF induced by cyclotron motions of water molecules and ions, respectively, decreases and increases in the nanotorus with freed carbon atoms. 相似文献
46.
Class VII Flextensional Transducers (FTs) have been proposed as a means of overcoming the limitation of very high prestress in Class IV FTs. These transducers are made from shells shaped like dog bone and hence are also known as dog-bone shell transducers. In this work, we report design optimization of a low frequency aluminum shell Class VII FT, resonating at 2.5 kHz, using piezoelectric drive. Two and three dimensional Finite Element Modeling (FEM), with the help of a commercially available package ATILA have been used for the design optimization. Dimensional details of the base model have been adapted from previous literature. Parametric analyses have been done with respect to various aspects like type of rubber, shell height, shell material, etc. in order to optimize the design. Experimental results obtained from an initial prototype are also presented. The results match fairly well with the predicted values. 相似文献
47.
In the wayside Acoustic Defective Bearing Detector (ADBD) system, the recorded signal usually includes both the sound from train bearings and the other disturbance sources. The fact of heavy noise corruption and the Doppler Effect of multi-source acoustic signals would badly reduce the effectiveness of online defect detection of the ADBD system. In order to extract useful information from the multi-source signal with Doppler Effect, this paper proposes an effective de-noising method based on the variable digital filter (VDF) for the ADBD system. Specifically, the ridge extraction based on Short-Time Fourier Transform (STFT) is applied to estimate the instantaneous frequencies (IFs), with which the fitting IF curves based on the Morse theory of theoretical acoustics could be achieved by using the nonlinear curve-fitting so that the parameters of the initial position of the acoustic sources could be calculated. By the aid of these parameters, the IFs according to the target train bearing could be then extracted. After that, the FIR variable digital filters could be designed with all the IFs which match the Morse theory with Doppler Shift so that the noise from the other parts could be effectively restrained after filtering the original signal. The effectiveness of this method is verified by means of a simulation with multi-frequency signals and applications to diagnosis of train roller bearing defects. Results indicate that the proposed method is effective. 相似文献
48.
Since the quality factor of an acoustic wave resonator (AWR) reached 1011, AWRs have been regarded as a good carrier of quantum information. In this paper, a scheme to construct a NOON state with two AWRs assisted by a nitrogen‐vacancy‐center ensemble (NVE) is proposed. The two AWRs cross each other vertically, and the NVE is located at the center of the crossing. By considering the decoherence of the system and using resonant interactions between the AWRs and the NVE, and the single‐qubit operation of the NVE, a NOON state can be achieved with a fidelity higher than 98.8% when the number of phonons in the AWR is . 相似文献
49.
A communication system is implemented on digital signal processors (DSPs) for the underwater acoustic environment. The implemented receiver uses time reversal multi-channel combining followed by a single-channel decision feedback equalizer. Periodic channel estimation is employed to track the channel fluctuations. These techniques are used to mitigate time-varying inter-symbol interference, which is the main challenge in the underwater acoustic channel at operating frequencies greater than 10 kHz. Various optimization tasks are performed to reduce the receiver computational complexity. A fast implementation of the matching pursuit algorithm is tested on the DSP platform. Its performance, in terms of accuracy and run-time, is compared with that of the basic matching pursuit algorithm. Experimental results of the transmission and demodulation of binary phase-shift keying signals at three different symbol rates were obtained in the local Delaware Bay. The low bit error rates demonstrate the effectiveness of our implementation. 相似文献
50.
The linear 3D piezoelasticity theory in conjunction with the versatile transfer matrix approach and the wave equation for the internal acoustic domain are employed for active non-stationary vibroacoustic response control of an arbitrarily thick, tri-laminate, fluid-filled, simply supported, piezocomposite cylindrical tank, excited by arbitrary (non-axisymmetric) time-dependent on-surface mechanical loads. The smart structure is composed of a supporting core layer of functionally graded orthotropic material perfectly bonded to inner and outer spatially distributed radially polarized functionally graded piezoceramic sensor and uniform force actuator (FGPM) layers. Active vibration damping is implemented by transferring the accumulated voltage on the sensor layer to the piezoelectric actuator layer in context of proportional and derivative control laws. Durbin's numerical inverse Laplace transform scheme is utilized to calculate the time response histories of the relevant interface displacement/stress components, center-point acoustic pressure, and actuator voltage, for selected loading configurations (i.e., concentrated step, impulse, and moving external loads). Numerical simulations demonstrate the effectiveness of the adopted distributed sensing/actuation configuration together with the active damping control strategy in suppressing the vibroacoustic response of a three-layered (Ba2NaNb5O15/Al/PZT4) water-filled piezoelastic cylindrical tank. Limiting cases are considered and the validity of results is established by comparison with the available data as well as with the aid of a commercial finite element package. 相似文献