Future University In Egypt (FUE)
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Altagamoa Al Khames, Main centre of town, end of 90th Street
New Cairo
Egypt
Faculty of Engineering & Technology
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Dina

Basic information

Name : Dina
Title: Lecturer
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Personal Info: Dina Muhammad Fathi Ors Born October 1, 1987) is an Egyptian Structural Engineer known as lecturer Assistant Structural Engineering and Construction Management Department, Faculty of Engineering and Technology, Future University in Egypt(FUE). After obtaining a bachelor's degree in civil engineering from the University of Ain Shams with grade very good with degree of honor and Excellent degree in Reinforced Concrete structures Design PROJECT, Dina studied successfully premaster courses include analysis of reinforced concrete high rise buildings, properties and strengthening of materials, Fiber-reinforced plastic (FRP) properties, Quality control of manufacturing reinforced concrete, soil dynamics, statistics, resource management and productivity. Later she finished Master thesis in Reinforced Concrete Design titled Non-linear finite element modeling of shear critical reinforced concrete elements. In December 2014; Dina has successfully passed the qualification exam required for starting PHD studies at AIN SHAMES University. Dina completed six pre-PHD courses within one semester (Fall 2016). October 2015; Dina started her PhD thesis by submission the research plan and starting the experimental work of the research at reinforced concrete laboratory of Housing and Building National Research Center (HBRC). View More...

Education

Certificate Major University Year
PhD Structure engineering 2019
Masters 2014
Bachelor 2009

Researches /Publications

Punching Capacity of UHPC Post Tensioned Flat Slabs with and Without Shear Reinforcement: An Experimental Study

Dina Muhammad Fathy Ors

01/03/2023

https://www.civilejournal.org/index.php/cej/article/view/3980

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Punching shear behavior of HSC & UHPC post tensioned flat slabs – An experimental study

Dina Muhammad Fathy Ors

18/01/2023

https://www.sciencedirect.com/science/article/pii/S2590123023000099?via%3Dihub

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Decision support system to select the optimum construction techniques for bridge piers

Dina Muhammad Fathy Ors

16/01/2023

https://www.sciencedirect.com/science/article/pii/S2090447923000412

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Influence of the Distribution and Level of Post-Tensioning Force on the Punching Shear of Flat Slabs

Dina Muhammad Fathy Ors

Ata K. Shoeib ; Amal Hassanin

21/12/2022

https://www.mdpi.com/2411-9660/7/1/1

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Evaluating the lateral subgrade reaction of soil using horizontal pile load test results

Dina Muhammad Fathy Ors

22/02/2022

https://doi.org/10.1016/j.asej.2022.101734

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Cyclic Load Behavior of Self-Centering Hammer-Head Bridge Piers

Dina Muhammad Fathy Ors

Hussein O. Okail , Hesham A. Mahdi ;Amr A. Abdelrahman

01/01/2018

This paper presents an experimental investigation in the cyclic load response of hammer-head bridge piers. The paper investigates the response of piers made of precast elements assembled with unbonded prestressing to provide self-centering capabilities under extreme lateral loading. This technique is beneficial in terms of limiting the expected residual deformations after major seismic events. Five one-fifth scale pier prototypes were designed, fabricated and tested under both gravity and lateral cyclic loading in displacement control. The test matrix was designed to investigate the effect of the construction method (monolithic versus precast), level of initial prestressing in the unbonded tendons and the use of energy dissipation rebar to result in fatter hysteresis loops. Experimental results showed that the proposed construction method is indeed capable of enhancing the cyclic load response characteristics in terms of increased ultimate lateral load capacity, reduced residual displacements, delayed damage states and reasonable energy dissipation capacity. The paper serves as a foundation for the next phase of the research program in which a detailed numerical simulation study will be developed to examine various design considerations related to the seismic behavior of such construction method.

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Non-linear finite element modeling of shear critical reinforced concrete elements

Dina Muhammad Fathy Ors

01/01/2014

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