Abstract
To study the propagation characteristics of Rayleigh waves and the isolation mechanism of a single-row of piles by isolation effects, in this paper we draw a two-dimensional contour map ofζ(normalized acceleration amplitude relative to a measure close at the vibration source) using a vibration test carried out on a sand foundation. In this experiment, we study, in addition to the free field and the single pile cases, settings with two and three piles. The result shows that the vibration caused by the point source in the free field excites Rayleigh waves in a radial direction along the surface of the foundation. Meanwhile, the vibrations of the points along the propagation path on the surface of the foundation are gradually weakened. There is a steady transition when theζdrops to 0.6 and a placid decline whenζdecreases to less than 0.25. The vibration-shielded region, the strengthened region, and the strengthened strips will appear on the surface of the foundation. The vibration-shielded region is located behind the piles, and the region presents a trumpet-shaped area that takes the pile as the vertex. Increasing the quantity of piles contributes to increasing the vibration isolation effect, not only that involving the degree of isolation but also for the area of the shielded area. The vibration-strengthened regions include the diffraction regions at the pile corners on both sides of the single-row of piles and the scattering region at the gaps of the piles. In addition, the composite regions are located among the vibration source and the scattering and diffraction-strengthened regions. Increasing the number of piles has little influence on the scattering and diffraction-strengthened regions but can significantly enhance the vibrations of the composite regions. In general, the vibration-strengthened strips are connected with the scattering-strengthened regions. However, in the test of a single pile, the pile is connected to the diffraction-strengthened regions near its two anterior angles.
Highlights
With the steady progress of China’s economy, the transportation system has developed rapidly, especially the rail transit which has grown both in volume and speed
Results and Analysis e two-dimensional contour map of ζ is used to analyse the propagation characteristics of the Rayleigh wave on the surface of the sand foundation and the isolation mechanism of the single-row of piles. e scale of the map is 1 : 10, and the drawing area involves the entire data collection zone of the field site. e legend consists of 16 numerical sections with intervals of 0.1. e propagation characteristics of the Rayleigh wave are mainly reflected in the test of the free field, which serves as a control to the row pile when researching the isolation mechanism
Based on the field measurements, the two-dimensional contour map of the acceleration amplitude dissipation rates of the vibration source is drawn using a vibration test carried on a sand foundation
Summary
With the steady progress of China’s economy, the transportation system has developed rapidly, especially the rail transit which has grown both in volume and speed. According to the values of ζ at each test point in the data collection zone, a 2D contour map of ζ can be drawn, which can be used to analyse the mechanism of concrete piles acting on Rayleigh waves.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
