Artificial neural network assessment for predicting elastic and optical properties of binary tellurite and borate glass systems
The introduction of artificial neural networks (ANNs) in the glass field has greatly improved this area to further increase fabrication productivity. ANNs are the systems that help the glass expert to estimate a few parameters such as density, ultrasonic velocity, elastic moduli and optical band...
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Main Author: | |
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Format: | Thesis |
Language: | English |
Published: |
2021
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Subjects: | |
Online Access: | http://psasir.upm.edu.my/id/eprint/104200/1/FS%202022%2035%20IR.pdf http://psasir.upm.edu.my/id/eprint/104200/ |
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Institution: | Universiti Putra Malaysia |
Language: | English |
Summary: | The introduction of artificial neural networks (ANNs) in the glass field has greatly
improved this area to further increase fabrication productivity. ANNs are the
systems that help the glass expert to estimate a few parameters such as density,
ultrasonic velocity, elastic moduli and optical band gap in the glass composition.
In this present works, the ANNs system was implemented in a series of zinctellurite
(ZnO-TeO2), bismuth-tellurite (Bi2O3-TeO2), zinc-borate (ZnO-B2O3) and
bismuth-borate (Bi2O3-B2O3) glass systems which have been successfully
fabricated using conventional melting and quenching methods with the
configuration of (ZnO)m (TeO2)100-m where m = 0, 5, 10, 15, 20, 25, 30 mol%,
(Bi2O3)n (TeO2)100-n where n = 0, 5, 7, 10, 13, 15 mol%, (ZnO)p (B2O3)100-p where
p = 0, 40, 45, 50, 55, 60 mol% and (Bi2O3)q (B2O3)100-q where q = 0, 40, 45, 50,
55, 60 mol%, respectively. The experimental measurements have been
investigated on the physical, structural, elastic and optical properties of binary
tellurite and borate glass systems containing various amounts of ZnO and Bi2O3
concentrations. The experimental density measurement on the effect of ZnO
substitution in both tellurite and borate glass systems showed the increment
values as the amount of ZnO content increases with the highest density value of
5.283 g/cm3 at 30 mol% of ZnO in tellurite glass systems. Meanwhile, the molar
volume value displayed an opposite behavior with the glass density which the
lowest value of the molar volume is 21.569 cm3/mol at 60 mol% of ZnO in borate
glass systems. The dropping value of the molar volume is attributed to the
changes in the glass network connectivity. For the Bi2O3 substitution in both
tellurite and borate glasses, the experimental density and molar volume
exhibited a similar behavior which is increasing with the increase of Bi2O3
content. The highest density and molar volume values are 6.550 g/cm3 and
46.935 cm3/mol at 60 mol% of Bi2O3 in borate glass systems, respectively. The
glassy state and amorphous nature of all glass samples have been confirmed
through the presence of a broad hump peak in the XRD analysis. FTIR
transmission and Raman absorption spectra have discovered the existence of TeO4, TeO3, BO4 and BO3 structural units in the glass samples. The substitution
of modifier ZnO and Bi2O3 into the tellurite and borate glass structure caused the
glass structure to become more rigid and increase the elastic moduli values. This
modification process affected the formation of bridging oxygen which leads to an
increase in cross-link density and gives a better packing in the glass structure as
calculated in bond compression and Makishima-Mackenzie theoretical model.
The optical behavior revealed that the shifts of the absorption edge to the longer
wavelength leading to the reduction in the optical band gap value. The minimum
optical band gap value for the effect of ZnO and Bi2O3 substitution in both tellurite
and borate glass systems is 2.557 eV at 30 mol% of ZnO in tellurite glass
systems and 2.210 eV at 15 mol% of Bi2O3 in tellurite glass systems.
Subsequently, the experimental values resulting from the composition of the
glass series were compared with the values obtained from the prediction by
ANNs. This study has concluded that the ANNs system was relevant to be used
in the glass fields since the coefficient of R2 values showed by the prediction
against the experimental graph were between 0.9941 to 1.000 which is
considered to be very satisfactory. |
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