Experimental and large-scale field tests of grid-anchor system performance in increasing the ultimate bearing capacity of granular soils

Mosallanezhad M.; Hataf N.; Taghavi S. H. Sadat

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Experimental and large-scale field tests of grid-anchor system performance in increasing the ultimate bearing capacity of granular soils

机译：网格-锚固系统提高颗粒土极限承载力性能的试验和大规模现场试验

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Soil reinforcement by means of geogrid is an effective method of increasing the ultimate bearing capacity (UBC) of granular soils. In this study a new system, created by adding cubic anchors to ordinary geogrids, is introduced to increase the UBC of granular soils. This system is called "grid-anchor" (G-A). To analyse the performance of the G-A system in increasing the UBC of granular soils, 45 experimental tests and 9 field tests were performed, the results of which show that the G-A system is 1.8 times more capable than ordinary geogrids in increasing the UBC in square foundations. Furthermore, the failure of soil reinforced by the ordinary geogrid takes place at a settlement of 9% of the foundation width, while the same value for the G-A system is almost 13%.

机译：土工格栅加固土壤是增加粒状土壤极限承载力（UBC）的有效方法。在这项研究中，引入了一种通过在普通土工格栅上添加立方锚创建的新系统，以增加粒状土壤的UBC。该系统称为“网格锚”（G-A）。为了分析GA系统在增加粒状土壤UBC方面的性能，进行了45次实验和9次现场测试，结果表明，GA系统在方形基础上增加UBC的能力是普通土工格栅的1.8倍。。此外，普通土工格栅加筋的土壤破坏发生在地基宽度的9％处，而G-A系统的相同值几乎为13％。

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《Canadian Geotechnical Journal》 |2016年第7期|共12页
作者
Mosallanezhad M.; Hataf N.; Taghavi S. H. Sadat;
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正文语种 eng
中图分类工程地质学;
关键词
geosynthetics; footings; reinforced soils; large-scale; ultimate bearing capacity; grid-anchor;

机译：土工合成材料;地基;加筋土;大型;极限承载力;网格锚;

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1. Experimental and large-scale field tests of grid-anchor system performance in increasing the ultimate bearing capacity of granular soils [J] . Mosallanezhad M., Hataf N., Taghavi S. H. Sadat Canadian Geotechnical Journal . 2016,第7期

机译：网格-锚固系统提高颗粒土极限承载力性能的试验和大规模现场试验
2. Experimental Study of Bearing Capacity of Granular Soils, Reinforced with Innovative Grid-Anchor System [J] . Mansour Mosallanezhad, Nader Hataf, Arsalan Ghahramani Geotechnical and geological engineering . 2008,第3期

机译：创新的网格锚固系统加固粒状土承载力的试验研究
3. THREE DIMENSIONAL BEARING CAPACITY ANALYSIS OF GRANULAR SOILS, REINFORCED WITH INNOVATIVE GRID-ANCHOR SYSTEM [J] . M. MOSALLANEZHAD, N. HATAF, A. GHAHRAMANI Iranian Journal of Science and Technology . 2010,第B4期

机译：创新的网格锚固系统加固的粒状土三维承载力分析
4. Analysis of the ultimate bearing capacity of a single pile in granular soils [C] . F. Kirzhner, G. Rosenhouse International Conference on Computational Methods in Contact Mechanics . 2001

机译：粒状土壤中单桩终极承载力分析
5. Ultimate bearing capacity of shallow foundations on layered soils. [D] . Abou Farah, Carlos. 2004

机译：层状土壤上浅层基础的极限承载力。
6. Experimental and Numerical Investigation on the Ultimate Vertical Bearing Capacity of U-Shaped Girder with Damaged Web [O] . Jingfeng Zhang, Yuan Jing, Pandao Li, 2019

机译：腹板受损U形梁的极限竖向承载力试验与数值研究
7. Ultimate Bearing Capacity of Strip Footing on Granular Soil Under Eccentrically Inclined Load- A Numerical Approach [O] . Mahendar Regoti 2015

机译：偏心荷载作用下条状地基在颗粒状土上的极限承载力
8. Centrifugal Model Tests for Ultimate Bearing Capacity of Footings on Steep Slopes in Cohesionless Soil [R] . Gemperline, M. C. 1984

机译：无粘性土陡坡基础极限承载力的离心模型试验研究

Experimental and large-scale field tests of grid-anchor system performance in increasing the ultimate bearing capacity of granular soils

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