Evaluation of magnetic flux leakage signals on fatigue crack growth of mild steel

Evaluation of magnetic flux leakage signals on fatigue crack growth of mild steel

In engineering applications, analysis of crack growth life is useful in situations where an unexpected crack has been found in a component of a machine, vehicle, or structure. The objective of this research is to investigate the correlation curve of magnetic flux leakage, Hp(y) signals by evaluating...

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Bibliographic Details
Published in:Journal of Mechanical Engineering and Sciences Vol. 9; pp. 1727 - 1733
Main Authors: Ahmad, M.I.M, Arifin, A., Abdullah, S.
Format: Journal Article
Language:English
Published: Pekan Universiti Malaysia Pahang 01-12-2015
Universiti Malaysia Pahang Publishing
Subjects:
crack growth life
Crack propagation
Fatigue failure
Fatigue test
Fracture mechanics
Low carbon steels
Magnetic flux
magnetic signals
stress intensity range
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Summary:In engineering applications, analysis of crack growth life is useful in situations where an unexpected crack has been found in a component of a machine, vehicle, or structure. The objective of this research is to investigate the correlation curve of magnetic flux leakage, Hp(y) signals by evaluating their critical value point with respect to step size. Moreover, the relation of fatigue crack growth rate, da/dN toward the stress intensity range, ΔK and Hp(y) in metal components is also discussed in this paper. The tension-tension fatigue test was conducted with the metal magnetic memory scanning device and crack opening displacement (COD) gauges in 10 Hz (testing frequency) by applying a load for 3.0-5.0 kN respectively. As a result, the correlation curve of Hp(y) was built with the R-Squared values in the range of 0.99 and one mathematical model has been developed for estimation analysis. The sigmoidal shape curve was plotted on the graph of da/dN versus ΔK and also with Hp(y). Thus, for validation, the linear relation is represented between ΔK and Hp(y) that present a good approach for magnetic parameter to be developed in the fatigue crack growth analysis. Therefore, the magnetic method has greater capability to analyze the fatigue crack propagation life in a real application.
ISSN:2289-4659
2231-8380
DOI:10.15282/jmes.9.2015.18.0166