R. El-Nabouch scite author profile

Rammed earth (RE) is a construction material which is manufactured by compacting the soil in a formwork, in different layers. Several recent studies have investigated this material. The seismic performance of RE buildings is an important topic which needs to be carefully investigated. The complex numerical model seems a performant approach to investigate the seismic performance of a whole building. To correctly establish the model, the shear parameters of the material, which are the cohesion and the friction angle, should be identified. This paper first presents experimental studies on the shear parameters of RE through the direct shear tests, at two different scales. The differences of the results at different scales are analyzed. Then, the obtained experimental values are used in a numerical model to simulate the shear behavior of RE walls which are loaded by a constant vertical stress and pushed horizontally on the top. From the obtained results, the values for numerical models are recommended.

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Vertical Rods as a Seismic Reinforcement Technique for Rammed Earth Walls: An Assessment

Bui

El-Nabouch

et al. 2019

Advances in Civil Engineering

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Rammed earth (RE) is a construction material which is manufactured by compacting soil by layers within a formwork to build a monolithic wall. RE material is the subject of numerous scientific researches during the last decade because of the significant heritage of RE buildings and the sustainable properties of this material: low embodied energy, substantial thermal inertia, and natural regulator of moisture. The seismic performance of RE buildings is an interesting topic which needs to be thoroughly investigated. This paper presents a numerical study which assesses the relevancy of a seismic reinforcement technique for RE walls by using two vertical steel rods installed at two extremities of the walls. The discrete element method (DEM) was used to model unreinforced and reinforced RE walls. These walls were first loaded with a vertical stress on the top to simulate the vertical loads and then submitted to a horizontal loading on the top to simulate the seismic action. Two current cases of RE buildings were investigated: one-storey and two-storey buildings. The results showed that the reinforcement technique enhanced the maximum horizontal force about 25% and 10%, respectively, for the cases of one- and two-storey buildings. Higher effectiveness of this reinforcement technique is expected for RE materials having higher compressive strength, for example, stabilized RE.

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Assessing a Nondestructive Method to Determine the Young’s Modulus of Rammed Earth Material

Bui¹,

El-Nabouch²,

Perrotin³

et al. 2017

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Experimental and Numerical Studies on Cohesion and Friction Angle of Rammed Earth Material

El-Nabouch¹,

Bui²,

Perrotin³

et al. 2017

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Limit analysis, rammed earth material and Casagrande test

El-Nabouch

Pastor

Bui

et al. 2018

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Seismic Assessment of Earthen Structures

Bui¹,

El-Nabouch²,

Miccoli³

et al. 2021

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R. El-Nabouch

Assessing the in-plane seismic performance of rammed earth walls by using horizontal loading tests

Characterizing the shear parameters of rammed earth material by using a full-scale direct shear box

Shear Parameters of Rammed Earth Material: Results from Different Approaches

Vertical Rods as a Seismic Reinforcement Technique for Rammed Earth Walls: An Assessment

Assessing a Nondestructive Method to Determine the Young’s Modulus of Rammed Earth Material

Experimental and Numerical Studies on Cohesion and Friction Angle of Rammed Earth Material

Limit analysis, rammed earth material and Casagrande test

Seismic Assessment of Earthen Structures

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