Abstract
This research shows the experimental results of the bending moment in a flexible and rigid raft foundation rested on dense sandy soil with different embedded depth throughout 24 tests. A physical model of dimensions (200mm*200mm) and (320) mm in height was constructed with raft foundation of (10) mm thickness for flexible raft and (23) mm for rigid raft made of reinforced concrete. To imitate the seismic excitation shaking table skill was applied, the shaker was adjusted to three frequencies equal to (1Hz,2Hz, and 3Hz) and displacement magnitude of (13) mm, the foundation was located at four different embedment depths (0,0.25B = 50mm,0.5B = 100mm, and B = 200mm), where B is the raft width. Generally, the maximum bending moment decreased with increasing the embedment depth from zero to B, by (75%,41%, and 43%) for the flexible raft under (1, 2 and 3) Hz respectively, for the rigid raft the maximum bending moment decreased by (62%, and 37%) under (1and 2) Hz respectively, for 3Hz excitation frequency, the direction of behavior wasn't the same for the case of the rigid raft foundation as the maximum bending moment increased with increasing the embedment depth from zero to (0.25B,0.5B and B) by (142% , 268% and 5%) compared with the surface raft foundation.
Highlights
For a safe design of the shallow foundation, it must have the ability to resist the dynamic loads; this subject has taken considerable attention in recent years
Bending moment in raft foundation was measured by using three pairs of strain gages located at the edges and the center of the raft; in general, the maximum bending moment was generated at the edge close to the excitation source
It is explained in the following points: 4.1.1 The maximum bending moment increased with increasing the embedment depth from zero to (0.25 B, and 0.5 B) by (142% and 268%), respectively, compared with surface embedded raft. 4.1.2 The maximum bending moment decreased with increasing the embedment depth from 0.5 B to B by (71%), but it is still more than that of surface embedded raft by (5%)
Summary
For a safe design of the shallow foundation, it must have the ability to resist the dynamic loads; this subject has taken considerable attention in recent years. Embedment has a significant effect on the response of the foundation and must be careful when evaluated, (Chowdhury and Dasgupta, 2008). The energy is dissipated by radiation damping under and along the sides of the foundation, (Prakash and Puri, 2006). In this study the foundation was placed at four different depths to investigate the embedment effect on the generated bending moment during seismic loading. Flexible and rigid raft foundations were used for that reason. The foundations were subjected to three frequencies (1, 2, and 3) Hz, which appointed to minor, intermediate, and substantial earthquakes
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
