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Eco-Geopolymers: Physico-Mechanical Features, Radiation Absorption Properties, and Mathematical Model

Neslihan Doğan-Sağlamtimur, Ahmet Bilgil, S. Ertürk, V. Bozkurt, Elif Süzgeç, Arife Gözde Akan, Pervin Nas, Hüseyin Çetin, Magdalena Szechyńska‐Hebda, Marek Hebda

2022Polymers11 citationsDOIOpen Access PDF

Abstract

Waste ashes and radiation are hazardous environmental and health factors; thus, a lot of attention is paid to their reduction. We present eco-geopolymer building materials (GPBMs) based on the class F fly ashes (FFAs) from thermal power plants (TPPs) and their implementation as a barrier against radioactive radiation. Different methods of production, ratios of FFA to alkali activator, and temperatures of curing were tested. Small spherical particles and higher content of SiO2 resulted in developed surface area and higher reactivity of Isken TPP FFA than Catalagzi TPP FFA. Lower activator concentration (10% vs. 20%) and curing temperature (70 vs. 100 °C) caused an increase in GPBM compressive strength; the highest value was measured as 93.3 MPa. The highest RA was measured for GPBMs, provided alkali activator ratio (Na2SiO3/NaOH) was >2 and its concentration was 20%. The mathematical model developed in this study proved FFA quantity, and thus GPBM mechanical properties, as key factors influencing RA. In the light of these results, the lightweight GPBMs can be excellent materials for the construction sector dedicated to immobilization, storage, and disposal for radionuclides or barriers against radiation; however, multiple steps of their production require careful optimization.

Topics & Concepts

GeopolymerMaterials scienceCuring (chemistry)Compressive strengthHazardous wasteActivator (genetics)Fly ashAlkali metalWaste managementComposite materialChemical engineeringPulp and paper industryChemistryOrganic chemistryBiochemistryEngineeringGeneConcrete and Cement Materials ResearchRecycling and utilization of industrial and municipal waste in materials productionNuclear materials and radiation effects
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