Sameh Badry Tobeia scite author profile

Sameh Badry Tobeia

5Publications

10Citation Statements Received

28Citation Statements Given

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Affiliations

University of Technology- Iraq

Publications

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Compressive strength improvement for recycled concrete aggregate

et al. 2018

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Increasing amount of construction waste and, concrete remnants, in particular pose a serious problem. Concrete waste exist in large amounts, do not decay and need long time for disintegration. Therefore, in this work old demolished concrete is crashed and recycled to produce recycled concrete aggregate which can be reused in new concrete production. The effect of using recycled aggregate on concrete compressive strength has been experimentally investigated; silica fume admixture also is used to improve recycled concrete aggregate compressive strength. The main parameters in this study are recycled aggregate and silica fume admixture. The percent of recycled aggregate ranged from (0-100) %. While the silica fume ranged from (0-10) %. The experimental results show that the average concrete compressive strength decreases from 30.85 MPa to 17.58 MPa when the recycled aggregate percentage increased from 0% to 100%. While, when silica fume is used the concrete compressive strength increase again to 29.2 MPa for samples with 100% of recycled aggregate.

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Experimental comparative study of reactive powder concrete: mechanical properties and the effective factors

2018

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Reactive Powder Concrete (RPC) is a type of ultra-high performance concrete, this dense composite material generally characterized by high cement content, high durability, low porosity, low water/cement ratio and in most cases contains steel fibers as new types of concrete appears, further investigation for their mechanical properties are needed. This work aims to give a better understanding of RPC behavior by deriving formulas to calculate the modulus of elasticity and the splitting tensile strength in relation with compressive strength and steel fibers content. This study is based on data obtained from the experimental investigation done in this work and from others pervious works. The parametric study is based mainly on the silica fume content which is used in four different ratios (12 %, 15 %, 20 % and 25 %), the use of micro steel fibers 15 mm in length, 0.2 mm in diameter and aspect ratio of 75 added in ratios of (0 %, 1 %, 1.5 % and 2 %), and water/cement in ratios of (16 %, 18 %, 20 % and 22 %), respectively. The proposed equations show a better behavior in comparison to some available equations that were used in the estimation of modulus of elasticity and splitting tensile strength of reactive powder concrete, the coefficient of variation for the proposed equations (COV) decrease to 10.677% and 10.455% respectively.

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Mechanical Properties Prediction of Normal and High Strength Geopolymer Concrete

Tobeia¹,

Assi²,

Abbas³

2021

ETJ

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Geopolymer concrete an alternative binder material.• The production of GPC depended on the minerals found in materials such as fly ash. • Predication of mechanical properties for normal and high strength GPC.The production process of cement is the main binder material in concrete usually accompanied by carbon dioxide emission. Therefore, geopolymer concrete (GPC) an alternative binder material was developed as a replacement for cement. In order to make this promising material more common in constructions and applicable for different design purposes further investigations for GPC mechanical properties were needed. This work aims to predicate the splitting tensile strength, modulus of elasticity and flexural strength for normal and high strength GPC by deriving new equations covering a wide range of compressive strength based on data available from previous work. Equations behavior along the changes in compressive strength from normal to high is adopted in comparisons as illustrated.The results show that the proposed equations, as compared with other equations established by previous works, provide a steady behavior for the various values of compressive strength especially for high strength. The coefficient of variation (COV) used as additional comparison criteria, and shows that the proposed equations provide better estimation of GPC mechanical properties.

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Enhancing recycled aggregate concrete properties by using polymeric materials

Tobeia

Khattab

Khlaif

et al. 2021

Materials Today: Proceedings

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The effects of different polymer materials on concrete properties containing superabsorbent polymers (SAP)-experimental study

Khattab

Tobeia

Lafta

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The use of admixtures in concrete production has become more common in the last decades due to the promising development in concrete technology. Each one of these admixtures can be used to enhance one or more of concrete properties in the fresh, hardened or both concrete conditions. Superabsorbent Polymers (SAP) is one of the polymer admixtures that is recently used for internal curing by controlling and absorbing water within concrete. This could provide several benefits, most important being, durability of concrete. The aim of this study is to experimentally investigate the effect of different polymeric materials represented by Styrene-Butadiene Rubber (SBR) and Polypropylene Fibers (PF) on the mechanical properties of concrete containing Superabsorbent Polymers (SAP). The results of this study revealed the fact that using SAP in concrete mixes improves durability. Despite this, a notable reduction in compressive strength can be observed. The use of both SAP and PF had an undesirable influence on the strength and workability of concrete. Using SBR in concrete mixes containing SAP assisted in recuperating the hardened splitting tensile strength of concrete.

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