PENGARUH VARIASI PEMBEBANAN TERHADAP KEAUSAN FASE RUNNING-IN PADA SISTEM ROLLING SLIDING CONTACT - Diponegoro University | Institutional Repository (UNDIP-IR)
42
DAFTAR PUSTAKA
[1]
en.wikipedia.org/gear & en.wikipedia.org/piston & en.wikipedia.org/sprocket
( diakses 20 September 2011)
[2]
Jamari, J. (2006). Running-in of rolling contacts. PhD Thesis, University of
Twente, Zutphen, The Netherlands.
[3]
Akbarzadeh, S., Khonsari. MM., On the prediction of the running-in behavior in
mixed-lubrication line contact., Journal of Tribology - Transactions of the ASME
2010, 132 : 032102-1 – 032102-11.
[4]
Blau, P.J., 1989, Friction and wear transitions of materials, Noyes, Park Ridge,
NJ.
[5]
Kraghelsky, V., Dobychun, M.N. and Kombalov, V.S., 1982, Friction and wear
calculation methods, Pergamon Press, Oxford.
[6]
Kajdas, C., Harvey S.S.K., and Wllusz E., 1990, Ensiklopedia of tribology,
Elseiver, Amsterdam, The Netherlands.
[7]
Bhushan, B. (1949). Modern tribology handbook, vol. 1, CRC Press, Washington,
D.C.
[8]
Whitehouse, D.J., 1980, “The effect of surface topography on wear ,”
Fundamentals of Tribology, edited by Suh and Saka, MIT, pp. 17 – 52.
[9]
Wang, W., Wong, P. L., and Zhang, Z., 2000, “Experimental study of the real
time change in surface roughness during running-in for PEHL contacts,” Wear,
244, pp. 140-146.
[10] Patir, N., and Cheng, H. S., 1978, “An average flow model for determining effects
of three-dimensional roughness on partial hydrodynamic lubrication,” ASME J.
Lubr. Technol., 100, pp. 8–14.
[11] Johnson, K.L., 1985, Contact mechanics, Cambridge University Press
43
[12] Akbarzadeh, S., Khonsari. MM., Experimental and theorical investigation of
running in. tribology International, 44. (2011) 92-100.
[13] http://en.wikipedia.org/slip (diakses 22 September 2011)
[14] Zum – Gahr, K. H. 1987. Microstructure and wear of materials. Elseiver,
Amsterdam, The Netherlands.
[15] Hokkirigawa, K. and Kato, K. (1989). „Theoretical estimation of abrasive wear
resistance based on microscopic wear mechanism‟, Wear of Materials (ed K.C.
Ludema), ASME, New York, pp. 1–8.
[16] Stachowiak, Gwidon W. (2005) Wear – Materials, mechanisms and practice.
John Wiley & Sons, Ltd., West Sussex, England.
[17] Gelinck, Edwin, 1999, Mixed lubrication of line contact, Ph.D. thesis, University
of Twente, Enschede, The Netherlands.
[18] Schipper, D.J., 1988, Transitions in the lubrication of concentrated contacts, PhD
Thesis,University of Twente, Enschede, The Netherlands.
[19] Faraon, I. C., 2005, Mixed lubricated line contact, Ph.D. thesis, University of
Twente, Enschede, The Netherlands.
[20] Wang, W., Wong, P. L., and Guo, F., 2004, “Application of partial
elastohydrodynamic lubrication analysis in dynamic wear study for running-in,”
Wear, 257, pp. 823–832.
[21] Moes,
H.,
1992,
“Optimum
similarity
analysis
elastohydrodynamic lubrication,” Wear, 159, pp. 57–66.
with
applications
to
DAFTAR PUSTAKA
[1]
en.wikipedia.org/gear & en.wikipedia.org/piston & en.wikipedia.org/sprocket
( diakses 20 September 2011)
[2]
Jamari, J. (2006). Running-in of rolling contacts. PhD Thesis, University of
Twente, Zutphen, The Netherlands.
[3]
Akbarzadeh, S., Khonsari. MM., On the prediction of the running-in behavior in
mixed-lubrication line contact., Journal of Tribology - Transactions of the ASME
2010, 132 : 032102-1 – 032102-11.
[4]
Blau, P.J., 1989, Friction and wear transitions of materials, Noyes, Park Ridge,
NJ.
[5]
Kraghelsky, V., Dobychun, M.N. and Kombalov, V.S., 1982, Friction and wear
calculation methods, Pergamon Press, Oxford.
[6]
Kajdas, C., Harvey S.S.K., and Wllusz E., 1990, Ensiklopedia of tribology,
Elseiver, Amsterdam, The Netherlands.
[7]
Bhushan, B. (1949). Modern tribology handbook, vol. 1, CRC Press, Washington,
D.C.
[8]
Whitehouse, D.J., 1980, “The effect of surface topography on wear ,”
Fundamentals of Tribology, edited by Suh and Saka, MIT, pp. 17 – 52.
[9]
Wang, W., Wong, P. L., and Zhang, Z., 2000, “Experimental study of the real
time change in surface roughness during running-in for PEHL contacts,” Wear,
244, pp. 140-146.
[10] Patir, N., and Cheng, H. S., 1978, “An average flow model for determining effects
of three-dimensional roughness on partial hydrodynamic lubrication,” ASME J.
Lubr. Technol., 100, pp. 8–14.
[11] Johnson, K.L., 1985, Contact mechanics, Cambridge University Press
43
[12] Akbarzadeh, S., Khonsari. MM., Experimental and theorical investigation of
running in. tribology International, 44. (2011) 92-100.
[13] http://en.wikipedia.org/slip (diakses 22 September 2011)
[14] Zum – Gahr, K. H. 1987. Microstructure and wear of materials. Elseiver,
Amsterdam, The Netherlands.
[15] Hokkirigawa, K. and Kato, K. (1989). „Theoretical estimation of abrasive wear
resistance based on microscopic wear mechanism‟, Wear of Materials (ed K.C.
Ludema), ASME, New York, pp. 1–8.
[16] Stachowiak, Gwidon W. (2005) Wear – Materials, mechanisms and practice.
John Wiley & Sons, Ltd., West Sussex, England.
[17] Gelinck, Edwin, 1999, Mixed lubrication of line contact, Ph.D. thesis, University
of Twente, Enschede, The Netherlands.
[18] Schipper, D.J., 1988, Transitions in the lubrication of concentrated contacts, PhD
Thesis,University of Twente, Enschede, The Netherlands.
[19] Faraon, I. C., 2005, Mixed lubricated line contact, Ph.D. thesis, University of
Twente, Enschede, The Netherlands.
[20] Wang, W., Wong, P. L., and Guo, F., 2004, “Application of partial
elastohydrodynamic lubrication analysis in dynamic wear study for running-in,”
Wear, 257, pp. 823–832.
[21] Moes,
H.,
1992,
“Optimum
similarity
analysis
elastohydrodynamic lubrication,” Wear, 159, pp. 57–66.
with
applications
to