Browsing by Author "Busari, Y. O."
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Item CHARACTERIZATION OF BARUTEN LOCAL GOVERNMENT AREA OF KWARA STATE (NIGERIA) FIRECLAYS AS SUITABLE REFRACTORY MATERIALS(Faculty of Engineering, University of Nigeria, Nsukka,, 2018-04) Shuaib-Babata, Y. L.; Yaru, S. S.; Abdulkareem, S.; Busari, Y. O.; Ambali, I. O.; Ajao, K. S.; Mohammed, G. A.Studies have shown that adequate attention needs to be paid on processing of solid minerals that are potentially available in Nigeria to address its economic problem. Clays from five major towns in Baruten Local Government Area, Kwara State, Nigeria were examined using ASTM guidelines to determine their suitability for refractory applications. The clay samples were classified as Alumino-Silicate refractories due to high values of Al2O3 and SiO2. The results showed apparent porosity (19.4-25.6%), bulk density (1.83-1.90 g/cm3), cold crushing strength (38.7-56.1 N/mm2), linear shrinkage (4.4 – 9.3%), clay contents (52.71-67.83%), moisture content (17.0-23.6%), permeability (68-82 cmsec-1), plasticity (16.7-30.4%), refractoriness (>1300oC) and Thermal Shock Resistance (23-25 cycles) for the clay samples, which were measurable with the established standards for fireclays, refractory clays/brick lining or alumina-silicates and kaolin. Hence, the natural clays could suitably replace imported clays in some refractory applications. Appropriate use of information from this study would improve Nigeria’s industrialization and economic diversification.Item CHARACTERIZATION OF BARUTEN LOCAL GOVERNMENT AREA OF KWARA STATE (NIGERIA) FIRECLAYS AS SUITABLE REFRACTORY MATERIALS(Faculty of Engineering, University of Nigeria, Nsukka, Nigeria, 2018-04) Shuaib-Babata, Y. L.; Yaru, S. S.; Abdulkareem, S.; Busari, Y. O.; Ambali, I. O.; Ajao, K. S.; Mohammed, G. A.Item Characterization of Belle Natural Moulding Sand for Foundry Applications(Department of Civil Engineering, University of Ilorin, Ilorin, 2019-01) Shuaib-Babata, Y. L.; Nafiu, M. B.; Ajao, K. S.; Ambali, I. O.; Elakhame, Z. U.; Busari, Y. O.; Hassan, H. K.; Aremu, N. I.There exists vast availability of natural sands which may be suitable for foundry applications in different locations Kwara State in particular and generally in Nigeria. The sands need to be identified and characterised for productive and profitable foundry practices. In this study, assessment of chemical and physico-mechanical properties of the natural moulding sand in Belle community of Kwara State, Nigeria was carried out to ascertain its suitability for foundry applications. The analysis of the sand samples’ Chemical compositions were done using an XRF Analyser, while American foundry-men Society, ASTM and British standards laboratory tests procedures were adopted appropriately to determine the sand’s physico-mechanical properties. The results of chemical composition analysis showed that SiO2 have dominance proportion in the sand sample with an average value of 92.90 %, followed by Al2O3 (5.13%). CaO, Fe2O3, MgO, K2O, Na2O, ZnO and MnO were present within acceptable limits as trace elements. The results showed average physico-mechanical properties of the natural moulding sand sample to include grain fineness number (126), bulk density (1765 Kg/m3), moisture contents (7.66%), specific gravity (2.64), permeability (0.1cm/s), green compressive strength (51KN/m2), dry compressive strength (209KN/m2), flowability (65.22%), clay content (10%) shatter index (76%) and refractoriness (>900oC), which were within the required standards for casting of non-ferrous metal. Thus, Belle sand was found suitable for casting of non-ferrous metals. Though, there may be a need for the use of additives like bentonite, to enhance the sand’s clay content in order to increase the sand potential for foundry applicationsItem Characterization of Belle natural moulding sand for foundry applications(Department of Civil Engineering, University of Ilorin, Ilorin, 2019) Shuaib-Babata, Y. L.; Nafiu, M. B.; Ajao, K. S.; Ambali, I. O; Elakhame, Z. U.; Busari, Y. O.; Hassan, H. K.; Aremu, N. I.There exists vast availability of natural sands which may be suitable for foundry applications in different locations Kwara State in particular and generally in Nigeria. The sands need to be identified and characterised for productive and profitable foundry practices. In this study, assessment of chemical and physico-mechanical properties of the natural moulding sand in Belle community of Kwara State, Nigeria was carried out to ascertain its suitability for foundry applications. The analysis of the sand samples’ Chemical compositions were done using an XRF Analyser, while American foundry-men Society, ASTM and British standards laboratory tests procedures were adopted appropriately to determine the sand’s physico-mechanical properties. The results of chemical composition analysis showed that SiO2 have dominance proportion in the sand sample with an average value of 92.90 %, followed by Al2O3 (5.13%). CaO, Fe2O3, MgO, K2O, Na2O, ZnO and MnO were present within acceptable limits as trace elements. The results showed average physico-mechanical properties of the natural moulding sand sample to include grain fineness number (126), bulk density (1765 Kg/m3), moisture contents (7.66%), specific gravity (2.64), permeability (0.1cm/s), green compressive strength (51KN/m2), dry compressive strength (209KN/m2), flowability (65.22%), clay content (10%) shatter index (76%) and refractoriness (>900oC), which were within the required standards for casting of non-ferrous metal. Thus, Belle sand was found suitable for casting of non-ferrous metals. Though, there may be a need for the use of additives like bentonite, to enhance the sand’s clay content in order to increase the sand potential for foundry applicationsItem Characterization of Belle Natural Moulding Sand for Foundry Applications(USEP: Journal of Research Information in Civil Engineering, 2019) Shuaib-Babata, Y. L.; Nafiu, M. B.; Ajao, K. S.; Ambali, I. O.; Elakhame, Z. U.; Busari, Y. O.; Ibrahim, H. K.; Aremu, N. I.There exists vast availability of natural sands which may be suitable for foundry applications in different locations Kwara State in particular and generally in Nigeria. The sands need to be identified and characterised for productive and profitable foundry practices. In this study, assessment of chemical and physicomechanical properties of the natural moulding sand in Belle community of Kwara State, Nigeria was carried out to ascertain its suitability for foundry applications. The analysis of the sand samples’ Chemical compositions were done using an XRF Analyser, while American foundry-men Society, ASTM and British standards laboratory tests procedures were adopted appropriately to determine the sand’s physico-mechanical properties. The results of chemical composition analysis showed that SiO2 have dominance proportion in the sand sample with an average value of 92.90 %, followed by Al2O3 (5.13%). CaO, Fe2O3, MgO, K2O, Na2O, ZnO and MnO were present within acceptable limits as trace elements. The results showed average physico-mechanical properties of the natural moulding sand sample to include grain fineness number (126), bulk density (1765 Kg/m3), moisture contents (7.66%), specific gravity (2.64), permeability (0.1cm/s), green compressive strength (51KN/m2), dry compressive strength (209KN/m2), flowability (65.22%), clay content (10%) shatter index (76%) and refractoriness (>900oC), which were within the required standards for casting of non-ferrous metal. Thus, Belle sand was found suitable for casting of non-ferrous metals. Though, there may be a need for the use of additives like bentonite, to enhance the sand’s clay content in order to increase the sand potential for foundry applications.Item Corrosion inhibition efficacy of hybrid organic extracts from prosopisafricana and citrulluslanatus on mild steel in acidic medium(Faculty of Engineering, “Dunarea De Jos” University of Galati Romania, 2023-03-15) SHUAIB-BABATA, Yusuf Lanre; Ayinde, I. V.; Busari, Y. O.; Ameen, M. O.; Yahya, R. A; Ambali, I. O.; Aremu, N. I.; Abdulraman, S. O; Ajao, K. S; Garuba, A. A.Each of Prosopis Africana pod extract (PAPE) and Citrulluslanatus (WMPE) performed quite well as green inhibitors in the electrochemical corrosion in acidic solution at ambient temperature in previous research. However, the hybridization of these compounds was varied with the concentration ratio in this study to optimize the efficiency of the green inhibitor in a hydrochloric acid medium using mild steel. The extraction process of the inhibitor samples was carried out with the Soxhlet apparatus using n-hexane as the solvent. Furthermore, the potential inhibition efficiency was monitored using various corrosion measurement techniques at room temperature. The inhibitive response of the extracts could be attributed to the adsorption of the extracts’ components on mild steel surface by physisorption mechanism according to the Langmuir adsorption isotherm model. The results revealed that inhibition efficiency (IE%) depends on the concentration of the extracts. The peak IE% values were obtained with a hybrid ratio of 3:1 (PAPE: WMPE) for gravimetric technique. The Tafel polarization and gasometrical measurement technique is 96.7%, 98.5% and 83.1% respectively at the concentration of 1.0 g/L, which are above the peak IE% for PAPE (93.7%, 80.96% and 77.8%) and WMPE (92.7%, 80.5% and 75.6%)Item CORROSION INHIBITION OF AISI 1007 STEEL IN HYDROCHLORIC ACID USING CUCUMIS SATIVUS (CUCUMBER) EXTRACTS AS GREEN INHIBITOR(Faculty of Engineering Hunedoara, University of Politehnica, Timisoara, 2018-10) Shuaib-Babata, Y. L.; Busari, Y. O.; Yahya, R. A.; Abdul, J. M.The inhibiting effect of cucumber peel and seed extracts on corrosion of AISI 1007 steel in 2M solution of Hydrogen Chloride (HCl) at ambient temperature was studied using gravimetric and electrochemical measurements (TAFEL polarization). It was observed that corrosion rates reduced with increase in the extracts’ concentration, and inhibition efficiency (IE%) increased with the concentration. The study revealed that the cucumber extracts possessed good inhibiting efficiency. Though, the cucumber peel extract’s efficiency was greater than that of the seed (oil) extract during gravimetric measurement. The highest inhibition efficiency (IE) of 86.63% was achieved using the cucumber peel extract as inhibitor with 1.0 g/l concentration, while cucumber seed (oil) extract recorded 39.23%. The electrochemical measurements (TAFEL polarization) results revealed that the corrosion current density decreased with the increased in the concentration of the cucumber peel extract. The decreased in corrosion was due to increased blocking of the metal surface by adsorption of the leaf extract. Therefore, the extracts could be used as a green inhibitor to the corrosion of AISI 1007 steel in the hydrochloric acid medium as a replacement for toxic inhibitors. Keywords: Tafel Polarization, Gravimetric, Current Density, Metal Surface Adsorption, Inhibiting EfficiencyItem FEM Analysis of Fatigue Crack Growth in Low Carbon Steel Using Single Edge Notched Tension Specimen(Springer Nature Singapore Pte Ltd, 2021-02-19) Busari, Y. O.; Manurung, Y. H. P.; Shuaib-Babata, Y. L.; Leitner, M.; CeliK, E.Continuing improvement in the field of virtual crack closure technique of metals provides the opportunity for reliable probabilistic fatigue crack growth. The paper presents an analysis of mode I fatigue crack growth in low carbon steel. Experiment was carried out with Single Edge Notched Tension (SENT) specimens to determine its fatigue crack growth parameters on the specimens under constant amplitude loading. Linear elastic fracture mechanic crack path was modelled with the finite element method according to its experimental observation using the virtual crack closure technique (VCCT) in MSC Marc/Mentat. The simulation predicts the fatigue crack growth rate in high cycle fatigue. The simulated fatigue crack growth rate (FCGR) produced using SENT model represents good similar feature with the experimental process at stress ratio R = 0 Based on the remeshing model, it is also found that the results of crack growth rate and cycle count show good agreement within acceptable discrepancy compared to the experiment from Paris law diagramItem IMPACTS OF COVID-19 PANDEMIC ON NIGERIA’S ECONOMY: EFFECTIVE FOUNDRY TECHNOLOGYAS A SUSTAINABLE SOLUTION(Faculty of Engineering, “Dunarea De Jos” University of Galati Romania, 2022-03-15) SHUAIB-BABATA, Yusuf Lanre; Busari, Y. O.; MAHAMOOD, R. M.; YARU, S. S.; ABDULQADIR, L. B.; AMBALI, I. O.; AJAO, K. S.; ABDULRAMAN, S. O.This study considered the effect of the Covid-19 pandemic ontheeconomy of Nigeria and investigated the effective application of foundry technology to proffer a sustainable solution to the problem. Domestication of production of motorcycle components, being a significant means of transportation that is required for the development of any society was considered. Aluminium scraps from a waste dump and Belle and Oyun natural moulding sands in Kwara State, Nigeria, which have been previously recommended for non-ferrous casting in previous studies were considered and used for casting of motorcycle/tricycle parts (centre stand and brake pedal) using AFS guidelines. The scraps’ chemical compositions were analysed. Thereafter, some mechanical properties with the microstructure of the aluminium casts and that of commercially obtained imported types were examined using appropriate ASTM standards. Cast aluminium alloy produced using scrap had no casting defects and had some mechanical properties comparable to those available on the markets (imported). Thus, effective usage of naturally available moulding sands in Nigeria for foundry applications would help to proffer sustainable solutionsto the nation’s economic problem as a result of the adverse effects oftheCovid-19 pandemicItem Numerical Analysis of Single Edge Notched Tension Specimen with Fatigue Crack Parameter of Conventional Specimen Using Linear Elastic Fracture Mechanics(Universiti Tun Hussein Onn Malaysia, 2021) Busari, Y. O.; Abdullah, S.; Manurung, Y.H.P.; Shuaib-Babata, Y. L.This paper describes the numerical analysis of planar crack growth in high strength steel API 5L X70 whose crack growth parameter is adopted from experimental compact tension (CT) specimen in previous literature. Apart from the fact that conventional fatigue crack growth specimen has bogus geometry constraints, the Single Edge Notched Tension (SENT) better replicate the crack-tip constraint conditions experienced in structures. Linear elastic fracture mechanics (LEFM) crack orientation is modelled with the finite element method in SENT model considering its geometry functions a/W ratio to determine its crack growth rate based on constant amplitude load. The virtual crack closure technique tool in MSC Marc/Mentat software with adaptive and global remeshing is applied to assess high cycle fatigue crack propagation using the SENT model. The crack growth pattern for the 3-dimensional simulation characteristics is similar with that of the CT Specimen experimental procedure. Furthermore, the results of the crack propagation and the cycle count demonstrated good agreement with bearable discrepancy with maximum percentage difference of about 14.1 % for the HAZ and 6.4% for the weld and parent metal compared to the experimental results from literature.Item Numerical Evaluation of Fatigue Crack Growth of Structural Steels using Energy Release Rate with VCCT.(MDPI, Basel, Switzerland, 2022-03) Busari, Y. O.; Manurung, Y.H.P.; Leitner, M.; Shuaib‐Babata, Y. L.; Mat, M. F.; Ibrahim, H. K.; Simunek, D.; Sulaiman, M. S.This research presents the numerical evaluation of fatigue crack growth of structural steels S355 and S960 based on Paris’ law parameters (C and m) that are experimentally determined with a single edge notched tension (SENT) specimen using optical and crack gauge measurements on an electromotive resonance machine at constant amplitude load. The sustainable technique is replacing destructive, time‐consuming and expensive approaches in structural integrity. The crack propagation is modelled using the 3D finite element method (FEM) with adaptive remeshing of tetrahedral elements along with the crack initiator elements provided in simulation software for crack propagation based on linear elastic fracture mechanics (LEFM). The stress intensity is computed based on the evaluation of energy release rates according to Irwin’s crack closure integral with applied cyclic load of 62.5 MPa, 100 MPa and 150 MPa and stress ratios of R = 0 and 0.1. In order to achieve optimized mesh size towards load cycle and computational time, mesh and re‐mesh sensitivity analysis is conducted. The results indicate that the virtual crack closure technique VCCT‐based 3D FEM shows acceptable agreement compared to the experimental investigation with the percentage error up to 7.9% for S355 and 12.8% for S960 structural steel.Item Performance and Corrosion Inhibitive Mechanism of Prosopis Africana Pod Extracts on Mild Steel in Acidic Medium(Faculty of Engineering, University of Port Harcourt, Nigeria, 2022) Ayinde, I. V.; Ameen, M. O.; Busari, Y. O.; Ambali, I. O.; Abdulraman, S. O.; Ajao, K. S.This study investigates the influence of Prosopis Africana pod extract (PAPE) on corrosion behavior of mild steel in 1.0 M HCl. The Prosopis African Seed Extract (PASE) was previously characterized as a green corrosion inhibitor without considering its pod, which often constitutes environmental pollution. The PAPE solution was administered in varying concentrations of 0.0 g/ml to 10.0 g/ml as a green inhibitor of mild steel in 1M Hydrochloric (HCl) medium at room temperature using gravimetric, gasometric and electrochemical (Tafel Polarization) techniques. The volume of hydrogen evolution determined with gasometric process decreases as the concentration of the extract increases. The gravimetric technique recorded the highest inhibition efficiency (IE%) of 97.14% with a 1.0g/l concentration of PAPE. The electrochemical measurements of the corrosion current density (ICorr) decreased as the concentration of PAPE increased, with a maximum IE% of 80.59% (PAPE) at 1.0g/l recorded. Generally, IE% increases with the concentration of the extract. The decrease in the corrosion rate is caused by the intensified obstructive mechanism in the coupon surfaces instigated by the pod extract's adsorption. Hence, the extract from Prosopis Africana Pod is equally suitable as a green inhibitor for corrosion.Item Suitability of some Selected Ado-Ekiti (Nigeria) Natural Moulding Sands’ Properties for Sand Casting(Covenant University Faculty of Engineering, 2017-12) Shuaib-Babata, Y. L.; Yaru, S. S.; Abdulkareem, S.; Ajayi, S.; Busari, Y. O.; Ajao, K. S.; Ibrahim, H. K.; Ambali, I. O.; Mohammed, G. A.In achieving accelerated and sustaining economic growth and development in Nigeria, there is need for domestication of finished goods production through sustainable industrialization. Foundry technology is one of the vital bases for rapid industrial development of any nation. Samples of moulding sand at green state were collected from four different moulding sand deposits within Ado-Ekiti in Nigeria. The samples were prepared using ASTM and British standards, while the materials’ Physico-mechanical properties were evaluated using American Foundry Society (AFS) guidelines. The results obtained from the tests were compared with the AFS’s satisfactory mould sand properties for various types of metal castings. The sand samples were found to meet the requirements for casting various metals of different types like Aluminum, brass and bronze, light and malleable iron, light and medium grey iron, except heavy steel. The presence of red oxide in the sands and the specimens’ higher compressive strength values show that the natural sands will be suitable for casting of non- ferrous metal of low temperature. Effective application of the sample sands in casting will also enhance industrialization, job creation and the nation selfreliance through reduction in importation of foundry sand and foundry products into the country.Item Suitability of some Selected Ado-Ekiti (Nigeria) Natural Moulding Sands’ Properties for Sand Casting(Faculty of Engineering, Covenant University, Ota, Nigeria, 2017-12) Shuaib-Babata, Y. L.; Yaru, S. S.; Abdulkareem, S; Ajayi, S; Busari, Y. O.; Ajao, K. S.; Ibrahim, H. K.; Ambali, I. O.; Mohammed, G. A.In achieving accelerated and sustaining economic growth and development in Nigeria, there is need for domestication of finished goods production through sustainable industrialization. Foundry technology is one of the vital bases for rapid industrial development of any nation. Samples of moulding sand at green state were collected from four different moulding sand deposits within Ado-Ekiti in Nigeria. The samples were prepared using ASTM and British standards, while the materials’ Physico-mechanical properties were evaluated using American Foundry Society (AFS) guidelines. The results obtained from the tests were compared with the AFS’s satisfactory mould sand properties for various types of metal castings. The sand samples were found to meet the requirements for casting various metals of different types like Aluminum, brass and bronze, light and malleable iron, light and medium grey iron, except heavy steel. The presence of red oxide in the sands and the specimens’ higher compressive strength values show that the natural sands will be suitable for casting of non- ferrous metal of low temperature. Effective application of the sample sands in casting will also enhance industrialization, job creation and the nation selfreliance through reduction in importation of foundry sand and foundry products into the country.Item The Suitability of Using Environmental Waste (Polystyrene Foam, Sawdust and Eggshells) for Developing a Hybrid Composite for Ceiling Boards(Faculty of Engineering, University of Nigeria, Nsukka, Nigeria, 2022-03) SHUAIB-BABATA, YUSUF Lanre; Busari, Y. O.; Abdulraman, S. O.; Ambali, I. O.; Aremu, N. I.; Ajao, K. S.; Abdulqadir, L. B.; Arowolo, I. O.This study considers the suitability of using environmental wastes (polystyrene foam, sawdust and eggshell) for the development of composite materials for ceiling boards. The materials were collected from dumping sites and processed accordingly. The elemental compositions of the processed sawdust and eggshell were examined using Atomic Absorption Spectrometer (ASS) and plasma-optical emission spectrometer (Optimal 3100XL Perkin Elmer) respectively. Properties of the composite samples were determined using appropriate ASTM standards (ASTM D570, C109-95, D3479, E1530 and D7336/D7336M). The results show that the composite with a mix ratio of 5% Polystyrene, 10% sawdust and 40% eggshell exhibited the most suitable properties for ceiling board production or indoor uses in building: water absorption (0.52 and 6.17% for 2 and 24hours respectively), tensile strength (2.362 N/mm2), elongation at break (0.677 mm), compressive strength (0.1575 N/mm2), energy to break (0.016 N.m) and thermal conductivity of 0.0221 W/M.K. Thus, the production of suitable ceiling board using some bio-wastes can be domesticated in Nigeria.Item The Suitability of Using Environmental Waste (Polystyrene Foam, Sawdust and Eggshells) for Developing a Hybrid Composite for Ceiling Boards(FACULTY OF ENGINEERING, University of Nigeria, Nsukka, Nigeria (UNN), 2022-01) SHUAIB-BABATA, Yusuf Lanre; Busari, Y. O.; ABDULRAMAN, S. O.; ABDULQADIR, L. B.; AMBALI, I. O.; AJAO, K. S.; AREMU, N. I.; AROWOLO, I,OThis study considers the suitability of using environmental wastes (polystyrene foam, sawdust and eggshell) for the development of composite materials for ceiling boards. The materials were collected from dumping sites and processed accordingly. The elemental compositions of the processed sawdust and eggshell were examined using Atomic Absorption Spectrometer (ASS) andplasma-optical emission spectrometer (Optimal 3100XL Perkin Elmer) respectively. Properties of the composite samples were determined using appropriate ASTM standards (ASTM D570, C109-95, D3479, E1530 and D7336/D7336M). The results show that the composite with a mix ratio of 5% Polystyrene, 10% sawdust and 40% eggshell exhibited the most suitable properties for ceiling board production or indoor uses in building: water absorption (0.52 and 6.17% for 2 and 24hours respectively), tensile strength (2.362 N/mm2), elongation at break (0.677 mm), compressive strength (0.1575 N/mm2), energy to break (0.016 N.m) and thermal conductivity of 0.0221 W/M.K. Thus, the production of suitable ceiling board using some bio-wastes can be domesticated in Nigeria