Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism
Tribological behavior of Eichhornia crassipes nanotubes (EC-CNT) particles and transport phenomenon, which affect the tribological characteristic of the lubricant was investigated in this study. The investigation employed unidirectional and reciprocating sliding tribo-meter. The study was done in te...
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2022
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my.utm.1046932024-02-25T03:01:26Z http://eprints.utm.my/104693/ Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism Opia, Anthony Chukwunonso Mohd. Kameil, Abdul Hamid Syahrullail, Samion Johnson, Charles A. N. Izmi, Mazali Izhari Mamah, Stanley Chinedu Ali, Audu Ibrahim Abd. Rahim, Abu Bakar Veza, Ibham TJ Mechanical engineering and machinery Tribological behavior of Eichhornia crassipes nanotubes (EC-CNT) particles and transport phenomenon, which affect the tribological characteristic of the lubricant was investigated in this study. The investigation employed unidirectional and reciprocating sliding tribo-meter. The study was done in terms of friction and wear diameter reduction and surface wear analysis. EC-CNT particle concentration of 0.5, 1, 1.5 wt% were used alongside base rapeseed oil. Friction reduction using 1 wt% EC-CNT nanoparticle under unidirectional testing mode was 49% while reciprocating mode was 58.1% against base lubricant. However, wear scar radius reduction under unidirectional mode was 23.4%, observed closer to base oil lubricated wear scar radius 207.03 µm, whereas reciprocating has 52.2% compared to base oil lubricated wear radius 183.7 µm. The orientation mode analysis revealed that particles were found accumulated at the ball front for both modes and appear more under unidirectional mode leading to starvation of lubricant at the sliding contact region. Also, crushing of particles was observed in both operations both much with reciprocating sliding condition. Furthermore, wide flat film growth structure was found with reciprocating mode, thereby makes lubricant accessible to the sliding contact zone, leading to outstanding friction and wear reduction. Elsevier Ltd 2022-03 Article PeerReviewed Opia, Anthony Chukwunonso and Mohd. Kameil, Abdul Hamid and Syahrullail, Samion and Johnson, Charles A. N. and Izmi, Mazali Izhari and Mamah, Stanley Chinedu and Ali, Audu Ibrahim and Abd. Rahim, Abu Bakar and Veza, Ibham (2022) Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism. Tribology International, 167 (NA). pp. 1-17. ISSN 0301-679X http://dx.doi.org/10.1016/j.triboint.2021.107415 DOI:10.1016/j.triboint.2021.107415 |
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TJ Mechanical engineering and machinery Opia, Anthony Chukwunonso Mohd. Kameil, Abdul Hamid Syahrullail, Samion Johnson, Charles A. N. Izmi, Mazali Izhari Mamah, Stanley Chinedu Ali, Audu Ibrahim Abd. Rahim, Abu Bakar Veza, Ibham Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
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Tribological behavior of Eichhornia crassipes nanotubes (EC-CNT) particles and transport phenomenon, which affect the tribological characteristic of the lubricant was investigated in this study. The investigation employed unidirectional and reciprocating sliding tribo-meter. The study was done in terms of friction and wear diameter reduction and surface wear analysis. EC-CNT particle concentration of 0.5, 1, 1.5 wt% were used alongside base rapeseed oil. Friction reduction using 1 wt% EC-CNT nanoparticle under unidirectional testing mode was 49% while reciprocating mode was 58.1% against base lubricant. However, wear scar radius reduction under unidirectional mode was 23.4%, observed closer to base oil lubricated wear scar radius 207.03 µm, whereas reciprocating has 52.2% compared to base oil lubricated wear radius 183.7 µm. The orientation mode analysis revealed that particles were found accumulated at the ball front for both modes and appear more under unidirectional mode leading to starvation of lubricant at the sliding contact region. Also, crushing of particles was observed in both operations both much with reciprocating sliding condition. Furthermore, wide flat film growth structure was found with reciprocating mode, thereby makes lubricant accessible to the sliding contact zone, leading to outstanding friction and wear reduction. |
| format |
Article |
| author |
Opia, Anthony Chukwunonso Mohd. Kameil, Abdul Hamid Syahrullail, Samion Johnson, Charles A. N. Izmi, Mazali Izhari Mamah, Stanley Chinedu Ali, Audu Ibrahim Abd. Rahim, Abu Bakar Veza, Ibham |
| author_facet |
Opia, Anthony Chukwunonso Mohd. Kameil, Abdul Hamid Syahrullail, Samion Johnson, Charles A. N. Izmi, Mazali Izhari Mamah, Stanley Chinedu Ali, Audu Ibrahim Abd. Rahim, Abu Bakar Veza, Ibham |
| author_sort |
Opia, Anthony Chukwunonso |
| title |
Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
| title_short |
Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
| title_full |
Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
| title_fullStr |
Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
| title_full_unstemmed |
Tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
| title_sort |
tribological behavior of organic formulated anti-wear additive under high frequency reciprocating rig and unidirectional orientations: particles transport behavior and film formation mechanism |
| publisher |
Elsevier Ltd |
| publishDate |
2022 |
| url |
http://eprints.utm.my/104693/ http://dx.doi.org/10.1016/j.triboint.2021.107415 |
| _version_ |
1792148000277004288 |