Title of article
The Effect of Nano-Additives on the Hydration Resistance of Materials Synthesized From the MgO-CaO System
Author/Authors
Ghasemi Kahrizsangi, S Department of Materials Science and Engineering - Sharif University of Technology Tehran , Nemati, A Department of Materials Science and Engineering - Sharif University of Technology Tehran , Shahraki, A Department of Materials Science and Engineering - Sharif University of Technology Tehran , Farooghi, M Department of Materials Science and Engineering - Sharif University of Technology Tehran
Pages
7
From page
539
To page
545
Abstract
In this study, the effect of variety of Nano- additives doping on the hydration resistance of the MgOCaO system was investigated. Samples were prepared from calcined dolomite and magnesite. Nanoadditives that contained cations with various valences (trivalent and tetravalent) used as a dopant. The bulk density, apparent porosity and hydration resitance were studied and evaluated. Also, phase analysis of samples was conducted by using X-ray diffraction (XRD) and the microstructure investigation was done by scanning electron microscopy (SEM). The use of both additives improved the hydration resistance. However, the important role of the higher-valence cation in improvmnt of the hydration resistance of MgO-CaO materials was revealed. This behavior is believed to be due to the formation of vacancies in solid solution of CaO or MgO with higher–valence cation. Zr4+ cation form a solid solution with CaO, which reduce the Ca2+ concentration and leads to the improved hydration resistance of the MgO-CaO system. Also trivalent cation led to the formation of some low melting
phases such as C2F (2CaO.Fe2O3), CF (CaO.Fe2O3), C3A (3CaO.Al2O3). The formation of these low melting point phases surrounded the CaO and MgO grain, grain-boundaries and thus promoted densification and hydration resistance of the MgO-CaO system.
Farsi abstract
در اين پژوهش تاثير افزودني هاي نانو بر مقاومت به هيدراتاسيون سيستم MgO-CaO مورد بررسي قرار گرفته است. نمونه ها با استفاده از دولوميت و منيزيت كلسينه شده، تهيه شد. از مواد نانو با ظرفيت مختلف (سه و چهار ظرفيتي) به عنوان افزودني استفاده شد. دانسيته بالك، تخلخل و مقاومت به هيدارتاسيون نمونه ها اندازه گيري شده است. همچنين بررسي هاي فاز توسط دستگاه پراش اشعه ايكس و بررسي هاي ريزساختار ي با استفاده از SEM بررسي شده است. استفاده از هر دو نوع افزودني موجب افزايش مقاومت به هيدراتاسيون نمونه ها شد اما نمونه هاي داراي افزودني با ظرفيت بالاتر مقاومت به هيدراتاسيون بالاتري داشتند. دليل آن تشكيل جاهاي خالي در فرآيند انحلال جامد كلسيا و منيزيا با استفاده از جايگزيني يون Zr4+ در كاتيون CaO بوده است. همچنين كاتيون هاي سه ظرفيتي منجر به ايجاد فازهاي زودگداز از قبيل C2F، CF،C3A شد كه تشكيل اين فازهاي زودگداز با پوشش دانه هاي كلسيا و منيزيا و كاهش تخلخل در سيستم منجر به افزايش مقاومت به هيدراتاسيون نمونه ها شده است
Keywords
Nano-Additives , Trivalent and Tetravalent , Hydration Resistance , Solid Solution
Journal title
Astroparticle Physics
Serial Year
2016
Record number
2422632
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