The samples were sourced from the teak plantation in the Federal University of Akure, Ondo, State and Moremi street in Ile-Ife, Osun state, Nigeria. The clay samples were pulverized and grounded using the Denver Laboratory Jaw Crusher, Model BDA 15561 and ground/milled using Bico Ball Milling Machine, Model 69012 (USA), and sieved using the combination of BS Sieve no 10 (2.00mm), BS sieve no 16 (1.18mm), BS sieve no 20 (850μm to be free of stones and gravels. Akure Anthill clay in its crude was characterized using Energy Dispersive X-ray Fluorescent Spectrometer (ED-XRFS) and assayed 21.97% Fe2O3, 44.50% SiO2, 27% Al2O3, 3.03% TiO2, 1.43% K2O, 0.32% CaO, 0.37% RuO2, 1.38% BDL. Ile-Ife anthill clay in its crude was also characterized and found to contain 17.27% Fe2O3, 50.8% SiO2, 26% Al2O3, 2.20% TiO2, 1.37% K2O, 1.16% CaO, 0.31% RuO2, 0.46% BDL. The refractoriness of this anthill was also investigated and found to be 1400°C. This implies that both Akure and Ile-Ife anthill clay is not suitable for application in furnaces carrying out operations and melting operations at elevated temperatures beyond 1400°C. But it possesses good thermal stability at 10% bentonite, 10% kaolin and 25% bentonite respectively which is one of the characteristics or properties of the clay sample which makes it suitable for low refractory furnace lining applications.
| Published in | Advances (Volume 2, Issue 2) |
| DOI | 10.11648/j.advances.20210202.12 |
| Page(s) | 23-29 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2021. Published by Science Publishing Group |
Ile-Ife Anthill Clay, Akure Anthill Clay, Refractoriness, Foundary Properties
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APA Style
Afolabi Tola Toyin, Adara Peace Pamilerin, Omotoyinbo Joseph Ajibade, Alabi Oladunni Oyelola, Omokafe Michael Seun. (2021). Evaluation of the Foundry Properties of Stabilized Ile-Ife and Akure Anthill Clay. Advances, 2(2), 23-29. https://doi.org/10.11648/j.advances.20210202.12
ACS Style
Afolabi Tola Toyin; Adara Peace Pamilerin; Omotoyinbo Joseph Ajibade; Alabi Oladunni Oyelola; Omokafe Michael Seun. Evaluation of the Foundry Properties of Stabilized Ile-Ife and Akure Anthill Clay. Advances. 2021, 2(2), 23-29. doi: 10.11648/j.advances.20210202.12
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author = {Afolabi Tola Toyin and Adara Peace Pamilerin and Omotoyinbo Joseph Ajibade and Alabi Oladunni Oyelola and Omokafe Michael Seun},
title = {Evaluation of the Foundry Properties of Stabilized Ile-Ife and Akure Anthill Clay},
journal = {Advances},
volume = {2},
number = {2},
pages = {23-29},
doi = {10.11648/j.advances.20210202.12},
url = {https://doi.org/10.11648/j.advances.20210202.12},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.advances.20210202.12},
abstract = {The samples were sourced from the teak plantation in the Federal University of Akure, Ondo, State and Moremi street in Ile-Ife, Osun state, Nigeria. The clay samples were pulverized and grounded using the Denver Laboratory Jaw Crusher, Model BDA 15561 and ground/milled using Bico Ball Milling Machine, Model 69012 (USA), and sieved using the combination of BS Sieve no 10 (2.00mm), BS sieve no 16 (1.18mm), BS sieve no 20 (850μm to be free of stones and gravels. Akure Anthill clay in its crude was characterized using Energy Dispersive X-ray Fluorescent Spectrometer (ED-XRFS) and assayed 21.97% Fe2O3, 44.50% SiO2, 27% Al2O3, 3.03% TiO2, 1.43% K2O, 0.32% CaO, 0.37% RuO2, 1.38% BDL. Ile-Ife anthill clay in its crude was also characterized and found to contain 17.27% Fe2O3, 50.8% SiO2, 26% Al2O3, 2.20% TiO2, 1.37% K2O, 1.16% CaO, 0.31% RuO2, 0.46% BDL. The refractoriness of this anthill was also investigated and found to be 1400°C. This implies that both Akure and Ile-Ife anthill clay is not suitable for application in furnaces carrying out operations and melting operations at elevated temperatures beyond 1400°C. But it possesses good thermal stability at 10% bentonite, 10% kaolin and 25% bentonite respectively which is one of the characteristics or properties of the clay sample which makes it suitable for low refractory furnace lining applications.},
year = {2021}
}
TY - JOUR T1 - Evaluation of the Foundry Properties of Stabilized Ile-Ife and Akure Anthill Clay AU - Afolabi Tola Toyin AU - Adara Peace Pamilerin AU - Omotoyinbo Joseph Ajibade AU - Alabi Oladunni Oyelola AU - Omokafe Michael Seun Y1 - 2021/07/08 PY - 2021 N1 - https://doi.org/10.11648/j.advances.20210202.12 DO - 10.11648/j.advances.20210202.12 T2 - Advances JF - Advances JO - Advances SP - 23 EP - 29 PB - Science Publishing Group SN - 2994-7200 UR - https://doi.org/10.11648/j.advances.20210202.12 AB - The samples were sourced from the teak plantation in the Federal University of Akure, Ondo, State and Moremi street in Ile-Ife, Osun state, Nigeria. The clay samples were pulverized and grounded using the Denver Laboratory Jaw Crusher, Model BDA 15561 and ground/milled using Bico Ball Milling Machine, Model 69012 (USA), and sieved using the combination of BS Sieve no 10 (2.00mm), BS sieve no 16 (1.18mm), BS sieve no 20 (850μm to be free of stones and gravels. Akure Anthill clay in its crude was characterized using Energy Dispersive X-ray Fluorescent Spectrometer (ED-XRFS) and assayed 21.97% Fe2O3, 44.50% SiO2, 27% Al2O3, 3.03% TiO2, 1.43% K2O, 0.32% CaO, 0.37% RuO2, 1.38% BDL. Ile-Ife anthill clay in its crude was also characterized and found to contain 17.27% Fe2O3, 50.8% SiO2, 26% Al2O3, 2.20% TiO2, 1.37% K2O, 1.16% CaO, 0.31% RuO2, 0.46% BDL. The refractoriness of this anthill was also investigated and found to be 1400°C. This implies that both Akure and Ile-Ife anthill clay is not suitable for application in furnaces carrying out operations and melting operations at elevated temperatures beyond 1400°C. But it possesses good thermal stability at 10% bentonite, 10% kaolin and 25% bentonite respectively which is one of the characteristics or properties of the clay sample which makes it suitable for low refractory furnace lining applications. VL - 2 IS - 2 ER -
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