Mechanical Evaluation and Minerals Phases Identification of Fine and Coarse Okelele Block Clay Composites for Furnace Lining Application

Saheed, Yusuf Olanrewaju; Salawu, Mufutau A.; Alabi, Aderemi Babatunde

doi:10.46481/jnsps.2022.252

Cited by 4 publications

(3 citation statements)

References 6 publications

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“…But the clays obtained from Ara will be applicable for the same purpose only upon blending. Saheed et al (2022) studied the suitability of Okelele clays for high-temperature applications. The RF and mechanical properties, like the compressive strength of the clay material, were studied, and the study showed that the compressive strength of these clay materials obtained from deposits in Nigeria was up to 7.7 kN.…”

Section: Introductionmentioning

confidence: 99%

Production and optimization of the refractory properties of blended Nigerian clay for high-temperature application; a non-stochastic optimization approach

Samuel

Adamu

Abutu

et al. 2023

Funct. Compos. Struct.

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High-performance materials, systems, and processes have necessitated the exploration of very high-temperature environments. Materials, particularly ceramics, which can withstand these high temperatures, have been extensively studied, even though enough emphasis has not been given to clays sourced locally in Nigeria, where there is an abundance. Also, stochastic optimization techniques has been employed to improve on system or carry out experimentation with minimal spend of resources and very high accuracy. This work extensively explored the refractory properties of blends developed from locally sourced clays (Mayo Ndaga and kachalla Sembe and Kona). The Taguchi optimization technique was employed to determine the effect of various quantities of the clays on the loss on ignition (LOI), refractoriness (RF), and firing shrinkage (FS) of the blends. It was discovered that the optimum (lowest) loss on ignition, highest refractoriness, and lowest firing shrinkage were 11%, 1333°C, and 0.48%, respectively. Analysis of variance also proved the significance of Mayo Ndaga on the refractoriness and firing shrinkage of the blends, with P-values of 0.038 and 0.000 at a 95% confidence level.

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Section: Introductionmentioning

confidence: 99%

Production and optimization of the refractory properties of blended Nigerian clay for high-temperature application; a non-stochastic optimization approach

Samuel

Adamu

Abutu

et al. 2023

Funct. Compos. Struct.

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“…Other research [8][9][10][11] show that discarded shells may be used to make Portland cement, coarse aggregates, and concrete, among other building materials. For particular uses, other researchers have also experimented with various materials as composites [12][13][14]. Particleboard was originally created from wood, rice husks, sycamore leaves, citrus branches, beech twigs, and ordinary agricultural waste, according to the work mentioned [15][16][17][18][19][20][21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

Characterizations of some discarded shells particles polymer-based composites for ceilings and particles board applications

Salawu,

Ayinla,

Salahudeen

et al. 2023

Recent Adv. Nat. Sci

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Sea-shells, periwinkle-shells, and snail-shells were pulverized into 35.5 µm particle sizes. Using a two-roll Rheomixer with a rotor speed of 60 rpm for 10 minutes, the particles were thoroughly mixed with the binders in ratio 2:1 and placed in the compression mold of dimension 15 cm by 3 cm by 3 cm using a force of 1.5 kN. The Rockwell hardness tester on scale B with a 1.56 mm steel ball, optical microscope and Flexural tester were used to characterize the composites. Thermo-gravimetric analyzer and Fourier Transform Infrared (FTIR) Spectrometer were used to characterize the shell particles. According to the results, epoxy resin (bisphenol-A-diglycidyl ether poly) and hardener (isophoromediamine) composites containing periwinkle shell particles had the highest hardness number of 48 and could withstand maximum flexural load of 5.5 MPa ether poly) and hardener (isophoromediamine) proved to be the best epoxy resin. All the shell particleS functional groups were visible in the FTIR analysis with varying transmittances at their respective wavenumbers. Optical micrographs of the composites showed uniform distribution of the reinforcement and the matrix, thermo-gravimetric analyses demonstrated good thermal stability of the shell-particles up to 250 ◦C

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“…In the described work , radiation shielding materials were traditionally made from glass, rubber, polymer, elastomeric polymer, or vinyl binders with an elastic matrix packed with microscopic lead particles or lead oxide. Other applications for polymer composite materials have been reported [33][34]. Adsorption of catalysts in polyethylene manufacturing, hydrogen peroxide synthesis, as a selective adsorbent for numerous compounds including arsenic and fluoride, and sulfur removal from gas streams were only some of the applications for Al2O3 nanoparticles.…”

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confidence: 99%

Radiation Shielding Properties of Synthetic Ca-Al2O3 Polymer Based Composites

A. Salawu,

K. Ayinla,

C. Ezike

et al. 2023

JSMPM

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The optical and radiation shielding capabilities of Ca-Al2O3polymer-based composites were explored by combining synthesized aluminum oxide (Al2O3) with calcium (Ca) obtained from different shells. The obtained powders were dispersed into polymeric materials in a ratio of 2:1 via the melt-mixing process and then cast in a 10cm x10cm mold with a thickness of 10 mm and allowed to set at ambient temperature. The X-ray transmission through the composite samples was investigated using a well-collimated point source, and a linear attenuation coefficient was estimated. X-ray fluorescence results revealed calcium contents of 32 %, 37 %, and 34 % for snail shells, seashells, and periwinkle shells, respectively. The X-ray diffraction result confirmed the Al2O3polymorphs at approximately 32oand 57oand the aluminum phase at 46o. The X-ray photon transmittance of the composites is quite low at 40 keV to 60 keV and comparatively higher at 100 keV to 200 keV. For Ca-Al2O3polymer-based composites with calcium contents sourced from seashells, periwinkle shells, and snail shells, the maximum linear attenuation coefficients were 1.0 cm-1,0.79 cm-1, and 0.65 cm-1, respectively. The half-value layer (HVL) and relaxation length of all the samples under investigation decreased abruptly at 40 keV and 60 keV and grew linearly as the energy increased from 100 keV to 200 keV. A Ca-Al2O3polymer-based composite with calcium contents sourced from seashells was found to have higher x-ray attenuating characteristics than other composites.

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Mechanical Evaluation and Minerals Phases Identification of Fine and Coarse Okelele Block Clay Composites for Furnace Lining Application

Cited by 4 publications

References 6 publications

Production and optimization of the refractory properties of blended Nigerian clay for high-temperature application; a non-stochastic optimization approach

Production and optimization of the refractory properties of blended Nigerian clay for high-temperature application; a non-stochastic optimization approach

Characterizations of some discarded shells particles polymer-based composites for ceilings and particles board applications

Radiation Shielding Properties of Synthetic Ca-Al2O3 Polymer Based Composites

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