Browsing by Author "Orhadahwe, T.A"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item Microstructural assessment of AISI 1021 steel under rapid cyclic heat treatment process(Results in Engineering, 2019) Adeleke, A.A; Ikubanni, P.P.; Orhadahwe, T.A; Aweda, J.O.; Odusote, J.K.; Agboola, O.O.This research was aimed at using image analysis to describe the effects of rapid cyclic heating on mild steel. AISI1021 steel sample used in this study was subjected to quenching heat treatment followed by 1, 2, 3, and 4-cycles of rapid heat treatment. The as-treated steel samples were characterized by Brinell hardness tests, Charpy Vnotch impact tests, optical microscopy, and image analysis using Image J software. The results revealed that the grain size decreased from 1.07 µm in the control sample to 0.79 µm in the third cycle sample and increased to 0.86 µm in the fourth cycle sample. However, the results revealed that two-cycles of rapid heat treatment was enough to produce ultra-fine grains and impact ductility in mild carbon steel.Item Rapid cyclic heating of mild steel and its effect on microstructure and mechanical properties(IOP Conference series: Materials Science and Engineering, 2018) Aweda, J.O.; Orhadahwe, T.A; Ohijeagbon, I.O.The effect of subjecting mild steel to several cycles of rapid heat treatment on its mechanical properties and microstructure was investigated. Mild steel of 0.213 wt % carbon was subjected to transformation heat treatment from austenite to pearlite and quenched in running water. Rapid heating was achieved by preheating an electric muffle furnace to 840 oC before charging the samples into it. Each cyclic heat treatment was for a period of 200 seconds held at 840 oC. and cooled to 700 0C which was repeated four times. The effects of cycle numbers were evaluated by testing for impact, hardness, ultimate tensile strength and microstructural properties. The results showed that after 4th cycle of rapid heating the samples had impact energy 64.6 J, Brinell hardness number 563 and ultimate tensile strength 1257.78 N/mm. The samples after one cycle had ultimate tensile strength 1027.45 N/mm 10.396% and impact energy 286.174 N.m before failure. Through cyclic heating, grain refinement was achieved by the fast-simultaneous nucleation at the grain boundaries and the fast martensite to austenite transformation due to the fast heating rate which prevented austenite grain growth. Mechanical properties of the studied steel sample were improved with the rapid heat treatment cycles given.