Abstract
In a bid to address environmental challenges associated with the management of waste Coca cola glass bottle, this study set out to develop glass ceramic materials using waste coca cola glass bottles and magnesite from Sakatsimta in Adamawa state. A reagent grade chrome (coloring agent) were used to modify the composition of the coca cola glass bottle; X-ray fluorescence(XRF), X-ray diffraction (XRD) and Thermo gravimetric analysis (TGA) were used to characterize raw materials, four batches GC-1= Coca cola glass frit +1%Cr2O3, GC-2=97% Coca cola glass frit+ 2% magnesite+1%Cr2O3, GC-3=95% Coca cola glass frit+ 4%magnesite+1%Cr2O3, GC-4=93%Coca cola glass frit+ 6%magnesite+ 1%Cr2O3 were formulated and prepared. Thermal Gradient Analysis (TGA) results were used as a guide in selection of three temperatures (7000C, 7500C and 8000C) used for the study, three particle sizes -106+75, -75+53, -53µm and 2 hr sintering time were also used, the sinter crystallization route of glass ceramic production was adopted. The samples were characterized by X-ray diffraction (XRD) and Scanning Electron Microscope (SEM), the density, porosity, hardness and flexural strength of the resulting glass ceramics were also measured. The resulting glass ceramic materials composed mainly of wollastonite, diopside and anorthite phases depending on composition as indicated by XRD and SEM, the density of the samples increased with increasing sintering temperature and decreasing particle size. The porosity is minimal and it decreases with increasing sintering temperature and decreasing particle size. The obtained glass ceramic materials possess appreciable hardness and flexural strength with GC-3 and GC-4 having the best combination of both properties.
Highlights
The chronology of the human race from inception has been predicated on one material or the other in the form of tools or simple machine for usage [1]
Based on the results it can be concluded that Coca Cola glass bottle can be used to successfully produce glass ceramic materials with good properties
The resulting glass ceramic materials composed mainly of wollastonite, diopside and anorthite phases depend on composition
Summary
The chronology of the human race from inception has been predicated on one material or the other in the form of tools or simple machine for usage [1]. Modern science and technology constantly require new materials with special properties to achieve breathtaking innovations. This development centers on the improvement of scientific and technological fabrication and working procedures by rendering them faster, economically more viable and better in quality. New materials are introduced to improve general quality of life. 285-302 ceramic materials play a very special role as they offer the possibility of combining the special properties of conventional sintered ceramics with the distinctive characteristic of glass [2] Vol 22 (4) 2016 p. 285-302 ceramic materials play a very special role as they offer the possibility of combining the special properties of conventional sintered ceramics with the distinctive characteristic of glass [2]
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