Abstract
The structure of borosilicate glasses of composition 30Na2O-2Al2O3-25SiO2-xFe2O3 (43-x) B2O3 has been investigated in the composition range of 0.5 20 mol% Fe2O3. 27Al, 11B, 29 Si MAS NMR and FTIR spectroscopies have been used to measure the fraction of different structural species in the glasses. It is evidenced from NMR data that both sodium and Fe2O3 (in low region up to 7 mol%) are the main glass modifier. Structural determination for borosilicate glasses with a high content of (Fe2O3) was carried out by FTIR spectroscopy, where both 11B and 29Si MAS NMR are impossible because of the high quantities of paramagnetic iron (III) species present. NMR analysis was performed on borosilicate glasses containing up to 7 mol% Fe2O3 and the N4 values obtained by FTIR spectroscopy agree within error with the 11B NMR results of the same glass samples. Fe2O3 is a main glass modifier in the low-Fe2O3-content region (≤6 mol%). On other hand, it plays the role of glass former at higher content of Fe2O3. Increasing both N4 of boron tetrahedral units and chemical shift of silicon nuclei to reach maxima at 5 mol% Fe2O3 confirms the role of Fe2O3 as a glass modifier in the low composition region. On the other hand, fast decrease in N4 with further increasing Fe2O3 contents ≥6 mol%) is an evidence for iron oxide to inter the glass network as a network former.
Highlights
Ternary and quaternary borosilicate glasses (BSG) have an extended variety of industrial importance due to their different types of applications
The structure of borosilicate glasses of composition 30Na2O-2Al2O3-25SiO2-xFe2O3 (43-x) B2O3 has been investigated in the composition range of 0.5 - 20 mol% Fe2O3. 27Al, 11B, 29 Si MAS NMR and FTIR spectroscopies have been used to measure the fraction of different structural species in the glasses
NMR analysis was performed on borosilicate glasses containing up to 7 mol% Fe2O3 and the N4 values obtained by FTIR spectroscopy agree within error with the 11B NMR results of the same glass samples
Summary
Ternary and quaternary borosilicate glasses (BSG) have an extended variety of industrial importance due to their different types of applications. The first type contains a limited concentration from Fe2O3 as a paramagnetic material In such a case NMR study can be applied to obtain values of Qn and N4 fraction in the borosilicate glass. The second type of borosilicate glasses contains further high level from Fe2O3 (>6 mol%) These concentrations are unsuitable for NMR measurements. FTIR spectroscopy is not affected by the presence of paramagnetic species and it would be a very useful tool for quantitative measurement of structural fractions, such as Qn in silicate and N4 in borate networks where NMR is impracticable. FTIR spectroscopy can be applied for all glass compositions while MAS NMR technique is applied only on glasses of low Fe2O3 concentration (≤6 mol%)
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