Abstract
Multi-channel Impact-echo (IE) testing was used to evaluate debonding defects at the interface between track concrete layer, TCL, and hydraulically stabilized base course, HSB, in a real scale mockup model of concrete slab tracks for Korea high-speed railway (KHSR) system. The mockup model includes three debonding defects that were fabricated by inserting three 400 mm by 400 mm (length and width) thin plastic foam boards with three different thicknesses of 5 mm, 10 mm, and 15 mm, before casting concrete in TCL. Multi-channel IE signals obtained over solid concrete and debonding defects were reduced to three critical IE testing parameters (the velocity of concrete, peak frequency, and Q factor). Bilinear classification models were used to evaluate the individual and a combination of the characteristic parameters. It was demonstrated that the best evaluation performance was obtained by using average peak frequency or the combination of average peak frequency and average Q factor, obtained by eight accelerometers in the multi-channel IE device. The results and discussion in this study would improve the understanding of characteristics of multiple IE testing parameters in concrete slab tracks and provide a fundamental basis to develop an effective prediction model of non-destructive evaluation for debonding defects at the interface between TCL and HSB in concrete slab tracks.
Highlights
Concrete slab tracks are widely used in the high-speed railway systems in Germany, the Netherlands, China, Japan, and Korea [1,2]
A histogram presented by blue bars in Figure 11 shows the distribution of average phase velocity measured on the solid concrete region by IE testing using the impact sources located at S0 and S1
The mean value and standard deviation of the phase velocity values measured in the solid concrete slab are 1921.0 m/s and 99.8 m/s, respectively, with a coefficient of variation (COV) of 5.2%
Summary
Concrete slab tracks (or ballastless tracks) are widely used in the high-speed railway systems in Germany, the Netherlands, China, Japan, and Korea [1,2]. The continuous concrete slab tracks have been increasingly used in the Korea high-speed railway (KHSR) system after first being adopted to the second section of the Gyeongbu line (Daegu~Busan) and the Honam line (Osong~Gwangju Songjeong) [9]. Thickness stretch mode results from multiple reflections of bulk waves (P- and S-waves) between the top and bottom surfaces of a solid plate. A thickness stretch mode is induced by resonance waves that are generated by multiple reflections of bulk waves at the bottom surface of HSB and the top surface of TCL (Figure 3a).
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