ABSTRACT
This study involves evaluation of
using bitumen-palm kernel oil blend as quenching media during the heat
treatment of two grades of steel (0.56%C-Steel and 0.76%C-Steel) and ductile
cast iron. The purpose is to eliminate high handling cost of molten salt and
reduce time wastages on single quenchant during foundry processes. The chemical
composition of the steel and ductile cast iron was analyzed using X- ray
fluorescence spectroscopy method. The two quenchants palm kernel oil and
bitumen were taken in a known proportion (15:85) and blended using a magnetic
stirrer. The factors evaluated were austenitizing temperature (A) and holding
time (H) while the responses were ultimate tensile strength (u.t.$), hardness
(h), impact strength (i), percentage elongation (e), percentage reduction in
area (r.i.a). Multi- response multi-factor mathematical models were estimated
which were visualized in 3-D response surface and 2-D contour plots using
response surface methods. Final numerical optimization was conducted using
desirability function approach provided by MINITAB 18 to determine the optimal
settings of the response and factors after adequacy of the models to
approximate the measured data had been established at 0.10 confidence level.
The result showed that the optimum conditions for austenitizing temperature was
9 16.5°C and 45 mm while the predicted values of quenching hardness, ultimate
tensile strength, impact strength, %elongation, %reduction in area were
1327.29MPa, 29.36J, 72.77%, 86.79% and 175.59HRC for 0.56%C-Steel; 1407.97MPa,
20.04J, 50.80%, 49.17% and 196.13 for 0.76%C-Steel; 1235.OIMPa, 32.42J, 60.39%,
55.99% and 234.99HRC for ductile cast iron. From the analysis, it was
established that all the factors investigated influenced the steel performance
significantly and it was concluded that as the austempering time and holding
time increases, that the mechanical properties under investigation were
affected. From the cost analysis carried out, quenching of 0.56%C, 0.76%C-steel
and ductile cast iron at the optimal settings using B-PKO can save about one
thousand naira (N1000.0O) which is approximately 28.57% profit gained than when
palm kernel oil or other quenching media are used. The microstructural
investigation carried out showed that there was no attack on the surface of the
steel quenched. Palm kernel oil-bitumen blend from the study was found to have
the required properties as a quenching media for austempering of steel and
ductile cast iron. Hence, adoption of the optimal blend ratio and application
of the developed empirical models as well as exploitation of this natural
resource are recommended in some of the local industries and heat treatment
operations.
OKWONNA, O (2021). Optimization Of Bitumen-Palm Kernel Oil Blend For Austempering. Mouau.afribary.org: Retrieved Dec 26, 2024, from https://repository.mouau.edu.ng/work/view/optimization-of-bitumen-palm-kernel-oil-blend-for-austempering-7-2
ONOCHIE, OKWONNA. "Optimization Of Bitumen-Palm Kernel Oil Blend For Austempering" Mouau.afribary.org. Mouau.afribary.org, 08 Jul. 2021, https://repository.mouau.edu.ng/work/view/optimization-of-bitumen-palm-kernel-oil-blend-for-austempering-7-2. Accessed 26 Dec. 2024.
ONOCHIE, OKWONNA. "Optimization Of Bitumen-Palm Kernel Oil Blend For Austempering". Mouau.afribary.org, Mouau.afribary.org, 08 Jul. 2021. Web. 26 Dec. 2024. < https://repository.mouau.edu.ng/work/view/optimization-of-bitumen-palm-kernel-oil-blend-for-austempering-7-2 >.
ONOCHIE, OKWONNA. "Optimization Of Bitumen-Palm Kernel Oil Blend For Austempering" Mouau.afribary.org (2021). Accessed 26 Dec. 2024. https://repository.mouau.edu.ng/work/view/optimization-of-bitumen-palm-kernel-oil-blend-for-austempering-7-2