TAILIEUCHUNG - Investigation of rayleigh wave interaction with surface defects
The far-field vertical displacements are compared with calculations obtained by the boundary element method (BEM) for circular, rectangular, triangular and arbitrary-shaped defects. Comparisons between the theoretical and BEM results, which are graphically displayed, are in excellent agreement. It is also discussed the limitations of the proposed approximate theory. | Investigation of rayleigh wave interaction with surface defects Journal of Science and Technology in Civil Engineering NUCE 2019. 13 (3): 95–103 INVESTIGATION OF RAYLEIGH WAVE INTERACTION WITH SURFACE DEFECTS Phan Hai Danga,∗, Le Duc Thoa , Le Quang Hungb , Dao Duy Kienc a Institute of Theoretical and Applied Research, Duy Tan University, No 1 Phung Chi Kien street, Cau Giay district, Hanoi, Vietnam b Graduate University of Science and Technology, VAST, 18 Hoang Quoc Viet street, Cau Giay district, Hanoi, Vietnam c Faculty of Civil Engineering, HCMC University of Technology and Education, No 1 Vo Van Ngan street, Thu Duc district, Ho Chi Minh city, Vietnam Article history: Received 08/08/2019, Revised 23/08/2019, Accepted 26/08/2019 Abstract The current article is concerned with the interaction of Rayleigh waves with surface defects of arbitrary shape in a homogeneous, isotropic, linearly elastic half-space. Using a linear superposition principle, the interaction generates a scattered field which is equivalent to the field radiated from a distribution of horizontal and vertical tractions on the surface of the defect. These tractions are equal in magnitude but opposite in sign to the corre- sponding tractions obtained from the incident wave. The scattered field is then computed as the superposition of the displacements radiated from the tractions at every point of the defect surface using the reciprocity the- orem approach. The far-field vertical displacements are compared with calculations obtained by the boundary element method (BEM) for circular, rectangular, triangular and arbitrary-shaped defects. Comparisons between the theoretical and BEM results, which are graphically displayed, are in excellent agreement. It is also discussed the limitations of the proposed approximate theory. Keywords: half-space; Rayleigh wave; surface defect; reciprocity theorem; boundary element method (BEM). .
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