Yasar Ameer Ali scite author profile

Yasar Ameer Ali

5Publications

9Citation Statements Received

11Citation Statements Given

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Al-Mustafa International University

Publications

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Studying the effect of shear stud distribution on the behavior of steel–reactive powder concrete composite beams using ABAQUS software

Ali¹,

Falah²,

Al-Mulali³

et al. 2022

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Using the ABAQUS software, this article presents a numerical investigation on the effects of various stud distributions on the behavior of composite beams. A total of 24 continuous 2-span composite beam samples with a span length of 1 m were examined (concrete slab at the top and steel I-section at the bottom). The concrete slab used is made of a reactive powder concrete with a compressive strength of 100.29 MPa. The total depth of each sample was 0.220 m. The samples were separated into four groups. The first group involved 6 specimens with shear connectors distributed into 2 rows with different distances (65, 85, 105, 150, 200, and 250 mm). The second group had the same spacing of shear connectors as the first group except that the shear connectors were distributed with one row along the longitudinal axis. The third group consisted of six specimens with single and double shear connectors distributed along the longitudinal axis. The fourth group included six specimens with one row of shear connectors arranged in a staggered distribution along the longitudinal axis. Results show that the optimum spacing was 105 mm in all groups and the deflection in group four fluctuated up and down due to the non-symmetrical distribution of the shear connectors.

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Prospect of using geotextile reinforcement within flexible pavement layers to reduce the effects of rutting in the middle and southern parts of Iraq

Sa’adi¹,

Al-Khafaji

Hashim³

et al. 2022

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Geotextile reinforcement techniques have been widely used in paving works around the world and have proven to be effective in improving pavement performance. This study has focused on using different positions and numbers of geotextile reinforcement sheets between the layers of flexible pavement for rutting reduction. Fitting depth was measured in the field at seven constructed sections of the pavement of the road model. Each section has been strengthened with different reinforcement approaches. All road sections were subjected to a maximum load repetition of 10,000 cycles. The results indicate that using three layers of geotextile beneath each course of the designed road pavement sections (surface, binder, and base) reduced rutting by 96%. Traffic benefit ratio (TBR) has been employed in this study to reveal the behavior of geotextile reinforcement in increasing the service life of the road. TBR values are the load cycling ratio between the reinforced and unreinforced section for the exact recorded rut depth, it has been found to be minimally equal to 4 for the case of using one layer of reinforcement at interface I, and that value keeps growing up for other reinforcement cases.

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An experimental comparison between different types of surface patterns of permeable interlocking concrete pavement for roadway subsurface drainage

Hashim¹,

Al-Mulali²,

Al-Khafaji

et al. 2022

Case Studies in Construction Materials

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Finite Element Analysis for the Behavior of Reinforced Concrete T-Section Deep Beams Strengthened with CFRP Sheets

Ali

Hashim

2020

KEM

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This paper presents a numerical investigation for the behavior of simply supported T-section deep beams, which strengthened with Carbon Fiber Reinforced Polymer (CFRP) sheets. The used specimens were (1.8 m length), (450 mm width and 100 mm depth) flange dimensions, and (180 mm width and 360 mm depth) web dimensions. The specimens were divided into four groups. Mainly, the difference between specimens in each group is in the main reinforcement details. The control group consisted of six beams unstrengthen with CFRP, the other groups were similar to the control group but externally strengthened with CFRP sheets, which were (0.131 mm) thickness. In detail, the second group was strengthened with CFRP sheet at the bottom surface of the web. The third group was strengthened horizontally with CFRP sheets at both sides of the specimen's web. The last group was strengthened with three sheets of CFRP; one at the bottom face of the web and the others at the web sides. The results show that using CFRP at the bottom slightly increased the ultimate strength and changed the failure mode from flexural to shear. Using CFRP at the sides significantly increased both flexural and shear strength, while using CFRP at the sides and bottom of the web did not significantly enhanced the ultimate strength in comparison with using CFRP at the sides only.

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Finite element approach to simulate performance of reinforced concrete beams with multiple openings

Al-Salman¹,

Ali²,

Hassan³

et al. 2022

PEN

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This paper presents a comparison designed to manipulate performance characteristics of ten reinforced concrete beams with and without openings under a single monotonic maximum stress at mid-span, depending on the configuration and size of the openings, using the ABAQUS/CAE finite element approach package. The cross-section, arrangement, and opening sizes of all the beams were identical to those of the test beams. The goal of the experimental comparison was to check that all simulation processes were proper and adequate. The numerical analysis results showed that in terms of the failure load, there was a 94 percent agreement between experimentally tested and numerical analysis results. In addition, it was shown that concentrated shear stresses at the corners of the openings causing the failure of the posts between the openings. The numerical study revealed that the influence of increasing main longitudinal steel reinforcement by 28% and 44% more efficient to enhance the ultimate load capacity by rates of 7.61% and 9.61%, respectively, compared to increasing the compressive strength of the beams by 24 %, which led to increasing the ultimate load capacity by 3.72%. Therefore, From the standpoint of difficulty and timesaving, the finite element approach is a very dependable technique for investigating the nonlinear behavior of beams with many apertures.

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Yasar Ameer Ali

Studying the effect of shear stud distribution on the behavior of steel–reactive powder concrete composite beams using ABAQUS software

Prospect of using geotextile reinforcement within flexible pavement layers to reduce the effects of rutting in the middle and southern parts of Iraq

An experimental comparison between different types of surface patterns of permeable interlocking concrete pavement for roadway subsurface drainage

Finite Element Analysis for the Behavior of Reinforced Concrete T-Section Deep Beams Strengthened with CFRP Sheets

Finite element approach to simulate performance of reinforced concrete beams with multiple openings

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