Data showing the effects of temperature and time variances on nano-additives treatment of mild steel during machining

Afolalu, Sunday A.; Abioye, Abiodun A.; Udo, Mfon; Adetunji, Olayide R.; Ikumapayi, Omolayo M.; Adejuyigbe, Samuel B.

doi:10.1016/j.dib.2018.05.077

Cited by 23 publications

(7 citation statements)

References 7 publications

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“…Surface roughness analysis is a key factor to evaluate process integrity and the quality of any processed material will be determined by surface topography, hardness test [6], wear [7], microstructural analysis etc. In this present data collection, surface roughness analysis has been the key factor of the investigation.…”

Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Experimental data on surface roughness and force feedback analysis in friction stir processed AA7075 – T651 aluminium metal composites

Ikumapayi

Akinlabi

2019

Data in Brief

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Friction Stir Processing (FSP) is a surface modification technique used to enhance the mechanical properties and improve the surface integrity of the processed material. In the present data collection, aluminium alloy 7075-T651 was studied under different reinforcement conditions. Microchannel of dimension 3.5 mm depth and 2.0 mm width were machined on the aluminium plates to accommodate the particles. The process was conducted at different rotational speed of 1200 rpm, 1500 rpm and 1800 rpm with constant processing speed of 20 mm/min, plunge depth of 0.3 mm and tilt angles of 3°. Double passes were achieved for each parameter with 100% inter-pass overlap. A cylindrical tapped, AISI H13 steel tool with shoulder diameter 18 mm, pin length of 5.0 mm, pin diameter 5 mm at the top and 6 mm at the end with 10° taper was used during friction stir process. Surface integrity analysis was carried out with the aid of mitutoyo surftest SJ-210 surface roughness tester (SRT). The analysis was carried out at three different points on a parameter for a particular workpiece and the average reading for each parameter is calculated in order to ensure precision of the measurements and the coverage surface area. The following surface roughness parameters were measured and recorded, arithmetical mean roughness value (Ra), maximum height (Ry), mean roughness depth (Rz) and root mean square roughness (Rq). Force feedback from the machine data for selected reinforcement particles with respected to processing times and x-positions are also presented.

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Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Experimental data on surface roughness and force feedback analysis in friction stir processed AA7075 – T651 aluminium metal composites

Ikumapayi

Akinlabi

2019

Data in Brief

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“…Bi- nano additives made up of crushed coconut shell with egg shell were used as materials [ 1 , 2 , 3 , 4 , 5 ]. The egg shells having a number of 483 were crumpled into smaller pieces using a mortar and a pestle were amassed and put into a crucible blast furnace which has the thermal heat capacity of up to 2300 °C, but for this experiment, the furnace was set to burn for 3 h at a temperature of 2000 °C.…”

Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Dataset on corrosion degradation behaviour of mild steel in developed nano-cutting coolant from agro waste

et al. 2020

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Investigation of the corrosion degradation behaviour of mild steel in an admixture of coconut shell and egg shell (CS-ES) based nano-fluid was presented in this study. Mild steel coupons were immersed in different concentrations (nine concentrations and the control as a reference) of the developed nano-fluid for a period of 24, 48, 72, 96, 120, 144 and 168 h. Corrosion rate was calculated based on ASTM Standard G1-03 standard practice for preparing, cleaning and evaluation of corrosion test specimens. Open circuit potential measurements (OCP) were also carried out. The potential of the steel samples in the nano-fluid with respect to time was investigated. This dataset could be used in evaluating the performance of mild steel in CS-ES based nano-fluid.

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“…Bi- nano additives consisting of pulverized palm kernel and coconut shell with eggshell as an energizer were used as raw materials [1], [2], [3], [4], [5]. Steel boxes of four sets with a dimension of 150×150×150 mm 3 and sixty-four pieces of AISI 5130 steel (20×20×5 mm 3 ) were also used during the research work.…”

Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Dataset on experimental investigation of optimum carburizing temperature and holding time of bi- nano additives treatment of AISI 5130 steel

et al. 2018

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Investigation of optimum carburizing temperature and holding time on bi- nano additives treatment of AISI 5130 steel was presented in this study. AISI 5130 steel of 100 kg mass of 0.35% carbon content was buried in pulverized additives consisting of palm kernel and coconut shell using eggshell as an energizer. Four sets of 150×150×150 mm3 steel boxes packed with additives mixed at varying weight ratio of 50: 30:20 and sixty-four pieces of 20×20×5 mm3 AISI 5130 steel were case hardened using muffle furnace (2500 °C max capacity) at respective temperatures and time of 950, 1000, 1050, 1100 °C and 60, 90, 120, 180 min. The core, interface and surface hardness of the treated samples with their respective weight loss, wear volume and rate were investigated. This dataset could be used in nano-composite match mixed ratio and optimization of carburizing medium and time for any industrial used case hardened steel.

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Data showing the effects of temperature and time variances on nano-additives treatment of mild steel during machining

Cited by 23 publications

References 7 publications

Experimental data on surface roughness and force feedback analysis in friction stir processed AA7075 – T651 aluminium metal composites

Experimental data on surface roughness and force feedback analysis in friction stir processed AA7075 – T651 aluminium metal composites

Dataset on corrosion degradation behaviour of mild steel in developed nano-cutting coolant from agro waste

Dataset on experimental investigation of optimum carburizing temperature and holding time of bi- nano additives treatment of AISI 5130 steel

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