Karakterisasi Sifat Perlindungan Keausan Pelumas SAE 10W-30 dengan Penambahan Nano Aditif MoS2 Sebagai Pemodifikasi Gesekan
DAFTAR PUSTAKA
ASTM D 130-04.Standard Test Method for Corrosiveness to Copper from
Petroleum Products by Copper Strip Test.
ASTM D 445-06.Standard Test Method for Kinematic Viscosity of Transparent
and Opaque Liquids (and Calculation of Dynamic Viscosity).
ASTM D 2783-03.Standard Test Method for Measurement of Extreme-Pressure
Properties of Lubricating Fluids (Four-Ball Method).
ASTM D 4172-94. (reapproved 2004). Standart Test Method for Wear Preventive
Characteristic of Lubricating Fluid (Four-Ball Method).
ASTM D 5293-08.Standard Test Method for Apparent Viscosity of Engine Oils
and Base Stocks Between –5 and –35°C Using Cold-Cranking Simulator.
ASTM D 6079-04.Standart Test Method for Evaluating Lubricity of Diesel Fuels
by the High-Frequency Reciprocating Rig (HFRR).
Dermawan,
D.,
Pertiwi,
D.S.,
Normalita,
N.H.,
Virgynia,
T.
(2012).Pengembangan Minyak Lumas Bio-Based:Efek Sinergistik
Senyawa Molybdenum Pada Peningkatan Sifat Tekanan Ekstrim. ISSN.
1907-0500
Hernandez, B.A., Ggonzalez, R., Viesca, J.L., Fernandez, J. M., Fernandez, D.,
Machado, A., Chou, R., Riba, J. (2008). CuO, ZrO 2 and ZnO
nanoparticles as antiwear additives in oil lubricants. Wear 265, 422-428.
Jiang, W., Malshe, A.P., Brown, W.D. (2004).Physical powder deposition of solid
lubricant nanoparticles by wlwctrostatic spray coating (ESC). Surface and
Coatings Technology 177 – 178, 671 – 675.
Jiao, D., Shaohua, Z., Yingzi, W., Ruifang, G., Bingqjang, C. (2011).The
tribology properties of alumina/silica composite nanoparticles as
lubricant additives.Applied Surface Science 257, 5720-5725.
Kalina, M., Kogovseka, J., Remskarb, M. (2012).Mechanism and improvements in
the friction and wear behavior using MoS 2 nanotubes as potential oil
additive. Wear 280 – 281, 36-45.
Kenneth, C. L. (2001). Modern Tribology Handbook. CRC Press LLC.
Kimura, Y., Wakabayashi, T., Okada, K., Umare, S.S., Bhatt, D.V., Jyoti, M.
(2013).Tribologycal behavior of nano TiO 2 as an additives in base oil.
Wear 301, 776-785.
Kogovsek, J., Remskar, M., Mrzel, A., Kalin, M. (2013).Influence of surface
roughness and running-in on the lubrication of steel surfaces with oil
containing MoS 2 nanotubes in all lubrication regimes. Tribology
International 61, 40-47.
Krishna, S.R., Gobinath, N., Sajith, V., et al. (2012). Application of TiO 2
nanoparticles as lubricants-additives for vapor compression refrigeration
35, 1989-1996.
Lubrizol (2011).Ready Reference for Lubricants and Fuels.
Lubrizol, 2002, Ready Reference for Lubricant and Fuel Performance, Lubrizol
Corp., USA.
Universitas Sumatera Utara
Luo, J., Zhu, M.H., Wang, Y.D., Zheng, J.F., Mo, J.L. (2011). Study on rotational
fretting wear of bonded MoS 2 solid lubricant coating prepared on medium
carbon steel. Tribology International 44, 1565 – 1570.
Mang, Dresel, ed. (2007). Lubricants and Lubrication (2nded.). Wiley-VCH
Verlag GmbH & Co. KGaA, Weinheim.
Mukesh, K.D., Jayashree, B., Ramakumar, S.S.V. (2013). PTFE based nanolubricants. Wear 306, 80-88.
Pawlak, Z., Kaldonski, T., Pai, R., Bayraktar, E., Oloyede, A. (2009).A
comparative study on the tribologycal behavior of hexagonal boron nitride
(h-BN) as lubricating micro-particles-An additives in porous sliding
bearing for car clutch. Wear 267, 1198-1202.
Pirro, D.M, Wessol, AA., 2001, “Lubrication Fundamentals, Second Edition,
Revised and Expanded”, Marcel Dekker Inc USA.
Rudnick, Leslie R, ed. (2003). Lubricant Additives: Chemistry and Applications,
Chapter 6: Selection and Application af solid Lubricant as Friction
Modifier. Marcel Dekker, Inc.
Sirinivas, V., Rao, C.K.R., Abyudaya, M., Jyothi, E.S. (2014). Extreme Pressure
Properties of 600 N Base Oil Dispersed With Molybdenum Disulphide
Nano Particles. Universal Journal of Mechanical Enginering. Wear 2(7):
220-225.
Sonali, J., Sandhyarani, N., Sajith, V. (2014). Tribological properties and
stabilization study of surfactant modified MoS 2 nanoparticle in 15W40
engine oil. International Journal of FluidMechanic and Machinery.V.1.
ISSN. 2374-1481.
Stachowiak, G.W., & Batchelor, A.W. (2005).Engineering Tribology. Butterworth
Heinemann.
Sudeep, I., Archana, C., Amol, K., Umare, S.S., Bhatt, D.V., Jyoti, M.
(2013).Tribologycal behavior of nano TiO 2 as an additives in base oil.
Wear 301, 776-785.
https://en.wikipedia.org/wiki/Sodium_dodecyl_sulfate
https://www.infineum.com/media/80723/api-engine-oil-classifications
Universitas Sumatera Utara
Universitas Sumatera Utara
ASTM D 130-04.Standard Test Method for Corrosiveness to Copper from
Petroleum Products by Copper Strip Test.
ASTM D 445-06.Standard Test Method for Kinematic Viscosity of Transparent
and Opaque Liquids (and Calculation of Dynamic Viscosity).
ASTM D 2783-03.Standard Test Method for Measurement of Extreme-Pressure
Properties of Lubricating Fluids (Four-Ball Method).
ASTM D 4172-94. (reapproved 2004). Standart Test Method for Wear Preventive
Characteristic of Lubricating Fluid (Four-Ball Method).
ASTM D 5293-08.Standard Test Method for Apparent Viscosity of Engine Oils
and Base Stocks Between –5 and –35°C Using Cold-Cranking Simulator.
ASTM D 6079-04.Standart Test Method for Evaluating Lubricity of Diesel Fuels
by the High-Frequency Reciprocating Rig (HFRR).
Dermawan,
D.,
Pertiwi,
D.S.,
Normalita,
N.H.,
Virgynia,
T.
(2012).Pengembangan Minyak Lumas Bio-Based:Efek Sinergistik
Senyawa Molybdenum Pada Peningkatan Sifat Tekanan Ekstrim. ISSN.
1907-0500
Hernandez, B.A., Ggonzalez, R., Viesca, J.L., Fernandez, J. M., Fernandez, D.,
Machado, A., Chou, R., Riba, J. (2008). CuO, ZrO 2 and ZnO
nanoparticles as antiwear additives in oil lubricants. Wear 265, 422-428.
Jiang, W., Malshe, A.P., Brown, W.D. (2004).Physical powder deposition of solid
lubricant nanoparticles by wlwctrostatic spray coating (ESC). Surface and
Coatings Technology 177 – 178, 671 – 675.
Jiao, D., Shaohua, Z., Yingzi, W., Ruifang, G., Bingqjang, C. (2011).The
tribology properties of alumina/silica composite nanoparticles as
lubricant additives.Applied Surface Science 257, 5720-5725.
Kalina, M., Kogovseka, J., Remskarb, M. (2012).Mechanism and improvements in
the friction and wear behavior using MoS 2 nanotubes as potential oil
additive. Wear 280 – 281, 36-45.
Kenneth, C. L. (2001). Modern Tribology Handbook. CRC Press LLC.
Kimura, Y., Wakabayashi, T., Okada, K., Umare, S.S., Bhatt, D.V., Jyoti, M.
(2013).Tribologycal behavior of nano TiO 2 as an additives in base oil.
Wear 301, 776-785.
Kogovsek, J., Remskar, M., Mrzel, A., Kalin, M. (2013).Influence of surface
roughness and running-in on the lubrication of steel surfaces with oil
containing MoS 2 nanotubes in all lubrication regimes. Tribology
International 61, 40-47.
Krishna, S.R., Gobinath, N., Sajith, V., et al. (2012). Application of TiO 2
nanoparticles as lubricants-additives for vapor compression refrigeration
35, 1989-1996.
Lubrizol (2011).Ready Reference for Lubricants and Fuels.
Lubrizol, 2002, Ready Reference for Lubricant and Fuel Performance, Lubrizol
Corp., USA.
Universitas Sumatera Utara
Luo, J., Zhu, M.H., Wang, Y.D., Zheng, J.F., Mo, J.L. (2011). Study on rotational
fretting wear of bonded MoS 2 solid lubricant coating prepared on medium
carbon steel. Tribology International 44, 1565 – 1570.
Mang, Dresel, ed. (2007). Lubricants and Lubrication (2nded.). Wiley-VCH
Verlag GmbH & Co. KGaA, Weinheim.
Mukesh, K.D., Jayashree, B., Ramakumar, S.S.V. (2013). PTFE based nanolubricants. Wear 306, 80-88.
Pawlak, Z., Kaldonski, T., Pai, R., Bayraktar, E., Oloyede, A. (2009).A
comparative study on the tribologycal behavior of hexagonal boron nitride
(h-BN) as lubricating micro-particles-An additives in porous sliding
bearing for car clutch. Wear 267, 1198-1202.
Pirro, D.M, Wessol, AA., 2001, “Lubrication Fundamentals, Second Edition,
Revised and Expanded”, Marcel Dekker Inc USA.
Rudnick, Leslie R, ed. (2003). Lubricant Additives: Chemistry and Applications,
Chapter 6: Selection and Application af solid Lubricant as Friction
Modifier. Marcel Dekker, Inc.
Sirinivas, V., Rao, C.K.R., Abyudaya, M., Jyothi, E.S. (2014). Extreme Pressure
Properties of 600 N Base Oil Dispersed With Molybdenum Disulphide
Nano Particles. Universal Journal of Mechanical Enginering. Wear 2(7):
220-225.
Sonali, J., Sandhyarani, N., Sajith, V. (2014). Tribological properties and
stabilization study of surfactant modified MoS 2 nanoparticle in 15W40
engine oil. International Journal of FluidMechanic and Machinery.V.1.
ISSN. 2374-1481.
Stachowiak, G.W., & Batchelor, A.W. (2005).Engineering Tribology. Butterworth
Heinemann.
Sudeep, I., Archana, C., Amol, K., Umare, S.S., Bhatt, D.V., Jyoti, M.
(2013).Tribologycal behavior of nano TiO 2 as an additives in base oil.
Wear 301, 776-785.
https://en.wikipedia.org/wiki/Sodium_dodecyl_sulfate
https://www.infineum.com/media/80723/api-engine-oil-classifications
Universitas Sumatera Utara
Universitas Sumatera Utara