Generation of High Intensity Sound by Random Vibrations

Li Ming Shi

doi:10.4028/www.scientific.net/AMM.214.183

Paper Titles

Application of Rigid-Flexible Coupling in Stiffness Calculation of Double Wishbone Suspension
p.161

Dynamics Analysis and Vibration Suppression of a Flexible Rotation Beam
p.165

Juice Extractor Stent Plastic Mould Structure Design
p.173

Research of Multi-Channel Hygrothermoscope Acquiring System
p.177

Generation of High Intensity Sound by Random Vibrations
p.183

Multiple Targets Passive Localization Technology Based on a Tolerant High Resolution Algorithm
p.188

Research of Sound Transmission Loss of Aircraft Sidewall with the Resonators
p.194

Research on Mechanical Wind Machine of Constant Velocity
p.200

Realization of the Viterbi Algorithm in MLSE with Intersymbol Interference
p.208

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 214Generation of High Intensity Sound by Random...

Generation of High Intensity Sound by Random Vibrations

Abstract:

Random wave difference is, there is no continuity and no column coupled harmonic wavelet. Singapore non-coherent wave stack can be the result of linear increase. We studied a cross wall at supersonic vibration wave phase speed driving most of the radiation. While recognizing that the ultimate strength of the sound waves from the total input power source was implemented in the beginning, we point out that the first phase increase in random vibration energy stored in the random structure of sound radiation is of great significance.