Abbas Fadhil Ibrahim Al-Ameri scite author profile

Background: The skirt foundation is one of the powerful types of foundations to resist the lateral loads produced from natural forces, such as earthquakes and wind action, or from the type of structures, such as oil platforms and offshore wind turbines. Objective and Methodology: This research experimentally investigated the response of skirted footing resting on sandy soil of different states to lateral applications of loads on a small-scale physical model manufactured for this purpose. The parameters studied are the distance between the footing and the skirt and its depth. Results and Conclusion: The results show that the presence of the skirt behind the footing loads to an increase in bearing load and a reduction in the lateral movement whereas the skirt near or adjacent to the footing edge causes maximum increases in bearing load and reduction in lateral movement, for skirted footing. The ratio between the wall distance and the width of the footing has no effect when it is greater than one. On the other hand, the state of the soil influences the bearing load and lateral movement with different ratio of wall distance and wall depth to the width of the footing, especially when the wall distance to the footing width is less than one and the state of the soil has no effect on the bearing load and lateral movement when the ratio is more than one.

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Effect of Saturation of Sandy Soil on the Displacement Amplitude of Soil Foundation System under Vibration

Al-Mosawi

Fattah²,

Al-Ameri

2015

jcoeng

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In this study, the response and behavior of machine foundations resting on dry and saturated sand was investigated experimentally. A physical model was manufactured to simulate steady state harmonic load at different operating frequencies. The effect of relative density, depth of embedment, foundation area as well as the imposed harmonic load was investigated. It was found that the amplitude of displacement of the foundation increases with increasing the amplitude of dynamic force and operating frequency meanwhile it decreases with increasing the relative density of sand, degree of saturation, depth of embedment and contact area of footing. The maximum displacement was noticed at 33.34 to 41.67 Hz. The maximum displacement amplitude response of the foundation resting on dry sand models is more than that on the saturated sand by about 5.0 to 10 %.

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Abbas Fadhil Ibrahim Al-Ameri

Dynamic Response of Saturated Soil - Foundation System Acted upon by Vibration

Vertical and Lateral Displacement Response of Foundation to Earthquake Loading

Vibration response of saturated sand - foundation system

Experimental Investigation of Skirt Footing Subjected to Lateral Loading

Effect of Saturation of Sandy Soil on the Displacement Amplitude of Soil Foundation System under Vibration

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