The Application Research on Signal Processing Technology in Non-Destructive Test Technology

Author:

Guan Di Jin1

Affiliation:

1. Shaoxing University

Abstract

The high-precision instruments must be tested to ensure the accuracy and the normal use of the instrument in the application. Traditional detection techniques damage the instrument. So, researching for a technology which has no destruction on high precision instrument is important. This paper puts forward a new ultrasonic nondestructive test technology of precision instruments through empirical mode decomposition method of modern signal processing technology and ultrasonic nondestructive test technology. The first part describes the shortcomings of modern signal processing technology--Fourier and wavelet analysis and the advantage of empirical mode decomposition method. The second part establishes the mathematical model of ultrasonic nondestructive test technology. It also establishes empirical model to enhanced signal and noise ratio using the self-adaptivity of the empirical mode decomposition. It also extracts Intrinsic Mode Function (IMF) of ultrasonic nondestructive test technology using EMD and Hilbert transform signal processing method. Finally, it gets Nonlinear and non-steady-state frequency power spectrum which provides a reliable theoretical basis for the study of nondestructive test technology.

Publisher

Trans Tech Publications, Ltd.

Reference16 articles.

1. D. Jiles,L. Mierczak. Stress and Depth Dependence of Stochastic Processes in the Barkhausen Effect. Bulletin of the American Physical Society APS March Meeting, 2011: 3430-3441.

2. Hechi Yin, Huanyuan Yan, Ligong Chen, Chunzhen Ni. The research status and development direction of the magnetic Barkhausen effect in test of residual stress non-destructive. Nondestructive test, 2008, 30 (1): 34-36.

3. A. Sipeky,A. Ivanyi. Magnetic measurement and vector modeling under applied mechanical stress . Pollack Periodica, 2012, 3(1): 53-65.

4. Song Kai, Yihua Kang, Yanhua Sun, Xinjun Wu. Study on the signal generation mechanism in magnetic flux leakage and eddy current composite testing. Journal of Mechanical Engineering, 2009, 45 (7).

5. Ying Tang, Mengchun Pan, Feilu Luo, Dixiang Chen. Pulsed magnetic flux leakage detection technology of pipeline corrosion detection . Computer Measurement & Control, 2010, 18 (1): 38-41.

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