Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model

Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model

Quaternary glass series of nano and micro-particles europium oxide (III), i.e. Eu2O3, of composition [{(TeO2)0.7 (B2O3)0.3}0.7 (ZnO)0.3](1-y) (EnOm)y, where EnOm is nano or micro Eu2O3 particles coded as TBZEu-NPs and TBZEu-MPs with y = 1.0–5.0 mol% was prepared by melt-quenching technique. Using th...

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Main Authors: Adamu, S. B., Halimah, M. K., Chan, K. T., Muhammad, F. D., Nazrin, S. N., Scavino, E., Kamaruddin, S. A., Az'lina, A. H., Ghani, N. A. M.
Format: Article
Published: Elsevier 2022
Online Access:http://psasir.upm.edu.my/id/eprint/103324/
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author Adamu, S. B.
Halimah, M. K.
Chan, K. T.
Muhammad, F. D.
Nazrin, S. N.
Scavino, E.
Kamaruddin, S. A.
Az'lina, A. H.
Ghani, N. A. M.
author_facet Adamu, S. B.
Halimah, M. K.
Chan, K. T.
Muhammad, F. D.
Nazrin, S. N.
Scavino, E.
Kamaruddin, S. A.
Az'lina, A. H.
Ghani, N. A. M.
author_sort Adamu, S. B.
building UPM Institutional Repository
collection Online Access
description Quaternary glass series of nano and micro-particles europium oxide (III), i.e. Eu2O3, of composition [{(TeO2)0.7 (B2O3)0.3}0.7 (ZnO)0.3](1-y) (EnOm)y, where EnOm is nano or micro Eu2O3 particles coded as TBZEu-NPs and TBZEu-MPs with y = 1.0–5.0 mol% was prepared by melt-quenching technique. Using the pulse-echo technique, the ultrasonic velocities of the glasses were examined. The experimental value of TBZEu-NPs longitudinal, shear, bulk, and Young's modulus ranges between 53.469 and 85.259 GPa, 21.801–24.086 GPa, 24.401–54.790 GPa, and 50.394–61.419 GPa, respectively. For the TBZEu-MPs glasses, they ranged from 46.335 to 87.365 GPa, 21.645–24.649 GPa, 17.475–54.499 GPa, and 45.959–64.260 GPa, respectively. Density and elastic properties were predicted and simulated using an artificial neural network (ANN) model. The correlation coefficients for density, elastic moduli, and Poison's ratio obtained using the ANN model range from 0.9881 to 0.9997. The fitted R-squared value is greater than 95%, and the percentage error calculated is less than 7%. The obtained results were compared to those obtained using the Makishima-Mackenzie elastic model. The prepared glass sample's physical properties and elastic constants indicate that they are sufficiently strong for laser applications.
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institution Universiti Putra Malaysia
institution_category Local University
last_indexed 2025-11-15T13:41:41Z
publishDate 2022
publisher Elsevier
recordtype eprints
repository_type Digital Repository
spelling upm-1033242023-11-06T06:28:24Z http://psasir.upm.edu.my/id/eprint/103324/ Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model Adamu, S. B. Halimah, M. K. Chan, K. T. Muhammad, F. D. Nazrin, S. N. Scavino, E. Kamaruddin, S. A. Az'lina, A. H. Ghani, N. A. M. Quaternary glass series of nano and micro-particles europium oxide (III), i.e. Eu2O3, of composition [{(TeO2)0.7 (B2O3)0.3}0.7 (ZnO)0.3](1-y) (EnOm)y, where EnOm is nano or micro Eu2O3 particles coded as TBZEu-NPs and TBZEu-MPs with y = 1.0–5.0 mol% was prepared by melt-quenching technique. Using the pulse-echo technique, the ultrasonic velocities of the glasses were examined. The experimental value of TBZEu-NPs longitudinal, shear, bulk, and Young's modulus ranges between 53.469 and 85.259 GPa, 21.801–24.086 GPa, 24.401–54.790 GPa, and 50.394–61.419 GPa, respectively. For the TBZEu-MPs glasses, they ranged from 46.335 to 87.365 GPa, 21.645–24.649 GPa, 17.475–54.499 GPa, and 45.959–64.260 GPa, respectively. Density and elastic properties were predicted and simulated using an artificial neural network (ANN) model. The correlation coefficients for density, elastic moduli, and Poison's ratio obtained using the ANN model range from 0.9881 to 0.9997. The fitted R-squared value is greater than 95%, and the percentage error calculated is less than 7%. The obtained results were compared to those obtained using the Makishima-Mackenzie elastic model. The prepared glass sample's physical properties and elastic constants indicate that they are sufficiently strong for laser applications. Elsevier 2022 Article PeerReviewed Adamu, S. B. and Halimah, M. K. and Chan, K. T. and Muhammad, F. D. and Nazrin, S. N. and Scavino, E. and Kamaruddin, S. A. and Az'lina, A. H. and Ghani, N. A. M. (2022) Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model. Journal of Materials Research and Technology, 17. 586 - 600. ISSN 2238-7854; ESSN: 2214-0697 https://www.sciencedirect.com/science/article/pii/S2238785422000357 10.1016/j.jmrt.2022.01.035
spellingShingle Adamu, S. B.
Halimah, M. K.
Chan, K. T.
Muhammad, F. D.
Nazrin, S. N.
Scavino, E.
Kamaruddin, S. A.
Az'lina, A. H.
Ghani, N. A. M.
Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model
title Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model
title_full Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model
title_fullStr Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model
title_full_unstemmed Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model
title_short Structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro Eu2O3 particles via artificial neural network model
title_sort structural, prediction and simulation of elastic properties for tellurite based glass systems doped with nano and micro eu2o3 particles via artificial neural network model
url http://psasir.upm.edu.my/id/eprint/103324/
http://psasir.upm.edu.my/id/eprint/103324/
http://psasir.upm.edu.my/id/eprint/103324/

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