Abstract
Varying formulations in the glass system of 40P2 O5 ─(24 - x)MgO─(16 + x)CaO─(20 - y)Na2 O─yTiO2 (where 0 ≤ x ≤ 22 and y = 0 or 1) were prepared via melt-quenching. The structure of the glasses was confirmed by X-ray diffraction (XRD), Fourier transform infrared (FTIR), micro Raman and solid-state nuclear magnetic resonance (NMR) spectroscopies. The thermal properties and the activation energy of crystallization (Ec ) were measured using thermal analysis and the Kissinger equation, respectively. The glass forming ability of the formulations investigated was seen to decrease with reducing MgO content down to 8 mol% and the glass stability region also decreased from 106 to 90°C with decreasing MgO content. The activation energy of crystallization (Ec ) values also decreased from 248 (for 24 mol% MgO glass) to 229 kJ/mol (for the 8 mol% MgO content) with the replacement of MgO by CaO for glasses with no TiO2 . The formulations containing less than 8 mol% MgO without TiO2 showed a strong tendency toward crystallization. However, the addition of 1 mol% TiO2 in place of Na2 O for these glasses with less than 8 mol% MgO content, inhibited their crystallization tendency. Glasses containing 8 mol% MgO with 1 mol% TiO2 revealed a 12°C higher glass transition temperature, a 14°C increase in glass stability against crystallization and a 38 kJ/mol increase in Ec in comparison to their non TiO2 containing counterpart. NMR spectroscopy revealed that all of the formulations contained almost equal percentages of Q1 and Q2 species. However, FTIR and Raman spectroscopies showed that the local structure of the glasses had been altered with addition of 1 mol% TiO2 , which acted as a network modifier, impeding crystallization by increasing the cross-linking between phosphate chains and consequently leading to increased Ec as well as their glass forming ability.
Highlights
Introduction iewPhosphate-based glasses (PBGs) have attracted a lot of interest in the field of biomaterials and tissue engineering due to their controllable degradation profiles and chemical similarity with the inorganic component of natural bone 1-3
The aim of this work was to investigate the effect of reducing MgO content by replacement with CaO for quaternary formulation of 40P2O5-(24-x)MgO-(16+x)CaO-20Na2O
The effect of decreasing MgO content and the addition of TiO2 on glass formation ability was investigated for glasses in the system 40P2O5-(24-x)MgO-(16+x)CaO-(20-y)Na2O-yTiO2, including assessment of the physical, thermal, structural and crystallisation properties
Summary
Phosphate-based glasses (PBGs) have attracted a lot of interest in the field of biomaterials and tissue engineering due to their controllable degradation profiles and chemical similarity with the inorganic component of natural bone 1-3. PBGs with various modifying oxide such as CuO 4, ZnO 5, Ag2O 6, Fe2O3 7, TiO2 8, SrO 9, have been extensively investigated to adjust for biomedical and tissue engineering applications. . the glass structure could be disrupted due to the addition or replacement of modifying oxide and the glass forming ability could be decreased 15. The tetrahedra can be described in terms of Qn terminology, where n represents the number of bridging oxygens (BOs) per PO43- tetrahedron. In vitreous P2O5 each tetrahedral unit is connected with three others via bridging oxygen and the fourth oxygen of each tetrahedral unit is known as a nonbridging oxygen (NBOs)
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