Optimization of performance carbon-based nanolubricant on Ti6Al4V Pin on disc testing using taguchi method
Pin-on-disc (PoD) testing extensively to investigate material sliding behavior and relevant wear mechanisms under different tribological conditions, result of Pin on Disc testing is worn and coefficient of friction. To identify the optimal parameters of the Pin on Disc test can use the taguchi...
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| Main Authors: | , , , , , |
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| Format: | Conference or Workshop Item |
| Language: | English |
| Published: |
2023
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| Online Access: | http://eprints.utem.edu.my/id/eprint/28084/1/Optimization%20of%20performance%20carbon-based%20nanolubricant%20on%20Ti6Al4V%20Pin%20on%20disc%20testing%20using%20taguchi%20method.pdf http://eprints.utem.edu.my/id/eprint/28084/ https://ieeexplore.ieee.org/document/10334843 |
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| Summary: | Pin-on-disc (PoD) testing extensively to
investigate material sliding behavior and relevant wear
mechanisms under different tribological conditions, result of
Pin on Disc testing is worn and coefficient of friction. To identify
the optimal parameters of the Pin on Disc test can use the
taguchi optimization method. Taguchi method is a reliable and
cost-effective approach to optimization, especially when several
factors may affect performance. Taguchi was chosen as the
optimization method due to its reliability and the fact that it
requires fewer experiments compared to other methods such as
full factorial design. From the result optimization using Taguchi
methods shows the best parameters for pin-on-disc testing using
Taguchi. To reduce wear rate and friction coefficient by
optimizing control parameters for pin-on-disc testing of
material dry sliding wear behavior. Based on the S/N ratio of
COF, it is known that the large load parameter has the highest
influence on COF because it produces the highest delta value
compared to other variables. This also shows that the optimal
combination is to get the best COF value in the pin on disc test
is oil type SWCNT, load 20N, and Speed 150 RPM. Based on the
results of the response S/N ratio of wear, it is known that the
large load parameter has the highest influence on wear because
it produces the highest delta value compared to other variables.
This also shows that the optimal combination is to get the best
COF value in the pin on disc test is oil type SWCNT, load 20N,
and Speed 120 RPM. The combination of SWCNT oil type, load
20 N and speed 120 RPM is the optimal parameter combination
for COF and wear values. The results of ANOVA show that
percentage load has the highest contribution of about 61.83%,
and the other parameters have lower contributions. |
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