Research of Noise Mechanism and Performance Improve of DVC Drum

Zhi Wu Shang; Zhu Chang; Zhen Wu Liu; Wang Tai Yong

doi:10.4028/www.scientific.net/KEM.693.1532

Paper Titles

Analysis of the Milling Acoustic Signal Using Wavelet Decomposition
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An Experimental Research on the Vibration Reduction of Ball Bearings by Superfinishing Process
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A Processing Method of Identifying Spectrum of Shock Load for the Combustion Gas Stream
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A Transient Faults Diagnosis Method Based on EEMD, Spectral Kurtosis Theory and Energy Operator Demodulating
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Research of Noise Mechanism and Performance Improve of DVC Drum
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Time-Domain Fault Diagnosis Method of Mechanical and Electrical Equipment Based Improved Dynamic Time Wraping
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Vibration Analysis of Civil Aero-Engine Based on Stochastic Resonance Preprocessing
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2-D Defect Profile Reconstruction from Ultrasonic Guided Wave Signals Based on Radial Wavelet Basis Function Neural Network with ELM
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Design for New Gear Measuring Centers
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 693Research of Noise Mechanism and Performance...

Research of Noise Mechanism and Performance Improve of DVC Drum

Abstract:

Based on the structure and working principle of DVC Drum, noise and vibration characteristics of mechanical noise, electromagnetic noise and radiated noise of DVC drum was analyzed comprehensively and systematically. FEA was done to DVC drum and four order natural vibration modes were got. Noise resource of DVC drum had been identified and recognized by the method of cepstrum analysis and it was consistent with the experimental result. And specific ways used wavelet analysis to identify noise resource and diagnose fault was got. The method of noise resource identification was expanded and noise resource of DVC drum was identified accurately. Targeted design improvements were done to inner diameter of bottom drum, process of hot extrusion, connect method of tray bracket in high temperature tester, operating method in production line and packing method. Then fraction defective of DVC drum noise was reduced from 2.5% to 0.6%.It had important practical significance to research on vibration and noise reduction of similar products.

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Periodical:

Key Engineering Materials (Volume 693)

Pages:

1532-1538

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.693.1532

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Online since:

May 2016

Authors:

Zhi Wu Shang*, Zhu Chang, Zhen Wu Liu, Wang Tai Yong

Keywords:

Cepstrum, DVC Drum, FEA, Noise Resource Identification, Wavelet

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* - Corresponding Author

References

[1] MA Da-you, Science of noise control, 2nd ed., Beijing, (1987).

Google Scholar

[2] FANG Dan-qun, Noise control, 1st ed., Beijing, (1986).

Google Scholar

[3] HUANG Qi-bo, Science of noise control in engineering, 1st ed., Wuhan, (1999).

Google Scholar

[4] WANG Tai-yong, Test analysis and technique of noise reduction of mechanical noise, 1st ed., Beijing, (1995).

Google Scholar

[5] SHANG Zhi-wu, WAN Shu-min, WANG Tai-yong, Research and application of structure test analysis system based high-speed data acquisition and real-time signal analysis, Instrumentation, 2001, 22(4) 300-301.

Google Scholar

[6] SHANG Zhi-wu, WANG Tai-yong, WU Zhen-yong, REN Cheng-zu, WAN Shu-min, Acoustic characteristic analysis and improvement of muffler of compressor, Acta Metrologica Sinica, 2003. (1) 133-136.

Google Scholar

[7] Yardibi T, Bahr C, Zawodny N, Uncertainty analysis of the standard delay-and-sum beamformer and array calibration, Journal of Sound and Vibration, 2010, 329(13) 2654-2682.

DOI: 10.1016/j.jsv.2010.01.014

Google Scholar

[8] YANG Yang, MIN Ni-ji, GANG Chu-zhi, noise source identification of an engine based on cross-spectra imaging function beamforming, Chinese Internal Combusion Engine Engineering, 2012, 33(3) 82-87.

Google Scholar

[9] LU Xi, YANG Cheng, Identifying Research on Noise Sources of Rotary Vane Compressor, Journal of Chongqing University, 2006, 29(8) 70-73.

Google Scholar

[10] CHEN Xin-zhao, Progress of techniques for noise resource identification, Journal of Hefei University, 2009, 32(5) 609-614.

Google Scholar