M. S. El-Maghraby scite author profile

M. S. El-Maghraby

5Publications

24Citation Statements Received

22Citation Statements Given

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Affiliations

National Research Centre, P-D Refractories (Germany)

Publications

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Pumice Characteristics and Their Utilization on the Synthesis of Mesoporous Minerals and on the Removal of Heavy Metals

Ismail

El-Shafey

Amr³

et al. 2014

International Scholarly Research Notices

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Wastewater treatment of some heavy metals was carried out by synthetic zeolite P1, which was prepared by alkaline hydrothermal treatment of the pumice. Both of the pumice raw materials and synthetic zeolite were investigated for their chemical phase composition, physical properties, and microstructure. The adsorption behavior of Na-zeolite P1 with respect to Co+2, Cu+2, Fe+2, and Cd+2 has been studied to be applied in the industrial wastewater treatment. Metal removal was investigated using synthetic solutions at different ions concentrations, time, and Na-P1 zeolite doses as well as constant temperature and pH. It is concluded that the optimum conditions for synthesis of highly active Na-P1 zeolite from natural pumice raw material are one molar NaOH concentration, temperature at 80°C, and one week as a crystallization time. In addition to the effect of time and zeolite dose as well as the ion concentration of the reaction efficiency for metals removals are recorded.

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Characterization of Egyptian dolomitic magnesite deposits for the refractories industry

Serry

El-Kholi

El-Maghraby

et al. 2002

Ceramics International

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Effect of Nepheline Syenite Additives on the Technological Behavior of Ceramics and Porcelain Stoneware Tiles

El-Maghraby

Ismail

Ghabrial

et al. 2019

Silicon

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Utilization of Some Egyptian Waste Kaolinitic Sand as Grog for Bricks and Concrete

El-Maghraby

Ismail

2015

Silicon

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The aim of the present study is to assess the suitability of some waste kaolinitic sand as grog for bricks and concretes. Three samples were selected and their chemical and mineralogical compositions as well as their ceramic and mechanical properties were investigated. The solid phase composition as well as the microstructure of the vitrified samples was also carried out using XRD and SEM methods. Refractoriness under load and thermal shock resistance are also investigated. Chemical and phase composition confirm that two samples (1 and 2) are fireclay with total impurities oxide contents (TIOC) less than 3.0 % while the third is mainly silica with TIOC less than 0.5 %. The microstructure of samples 1 and 2 shows predominant mullite crystals, bonded by silicate phases as confirmed by XRD, whereas silica phases are the main components of the third sample with minor intercalation of mullite phase. It is concluded that samples 1 and 2 fired at 1500 • C can be used as grog for brick and concrete manufacture in industrial furnaces up to 1400 • C while sample 3 needs some additives to form denser grains.

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Engineering Properties, Microstructure and Strength Development of Lightweight Concrete Containing Pumice Aggregates

2013

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M. S. El-Maghraby

Pumice Characteristics and Their Utilization on the Synthesis of Mesoporous Minerals and on the Removal of Heavy Metals

Characterization of Egyptian dolomitic magnesite deposits for the refractories industry

Effect of Nepheline Syenite Additives on the Technological Behavior of Ceramics and Porcelain Stoneware Tiles

Utilization of Some Egyptian Waste Kaolinitic Sand as Grog for Bricks and Concrete

Engineering Properties, Microstructure and Strength Development of Lightweight Concrete Containing Pumice Aggregates

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