Widths of lubrication zone and inlet widths of compression ring in the active cylinder, deactivated cylinder, and under the standard operation condition.

Average friction forces and their difference rates for the compression ring-cylinder liner system with dimples on the liner when JFO boundary condition and Reynolds boundary condition are used.

Cheng Liu (83733)
Yan-Jun Lu (3070725)
Yong-Fang Zhang (3070722)
Sha Li (145229)
Norbert Müller (244550)

July 2017

<p>Average friction forces and their difference rates for the compression ring-cylinder liner system...

Numerical study on the lubrication performance of compression ring-cylinder liner system with spherical dimples.

Cheng Liu
Yan-Jun Lu
Yong-Fang Zhang
Sha Li
Norbert Müller

January 2017

The effects of surface texture on the lubrication performance of a compression ring-cylinder liner s...

Friction forces for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) hydrodynamic frictions in the active cylinder. (b) asperity frictions in the active cylinder. (c...

FMEP values of the compression ring-cylinder liner system in the active cylinder, deactivated cylinder, and under standard operation condition for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

FMEP values of the compression ring-cylinder liner system in the active cylinder, deactivated cylind...

Minimum oil film thicknesses of the compression ring-cylinder liner system in the active cylinder, deactivated cylinder, and under standard operation condition.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Minimum oil film thicknesses of the compression ring-cylinder liner system in the active cylinder, d...

Evaluation on the tribological performance of ring/liner system under cylinder deactivation with consideration of cylinder liner deformation and oil supply - Fig 14

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) Hydrodynamic frictions for the compression ring-cylinder liner system in the active cylinder, de...

Average power losses and FMEP values for the compression ring-cylinder liner system in the active cylinder, deactivated cylinder, and under the standard operation condition.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Average power losses and FMEP values for the compression ring-cylinder liner system in the active cy...

Evaluation on the tribological performance of ring/liner system under cylinder deactivation with consideration of cylinder liner deformation and oil supply - Fig 10

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) Power losses in the active cylinder for the three cases. (b) power losses in the deactivated cyl...

Minimum oil film thicknesses for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) active cylinder. (b) deactivated cylinder. (c) standard operation condition.</p

Minimum oil film thicknesses between the compression ring and cylinder liner obtained by Gu et al.’s [64] and our models.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Minimum oil film thicknesses between the compression ring and cylinder liner obtained by Gu et al.’s...

Influence of boundary conditions on starvation of piston ring conjunction

Bewsher, R
Mohammadpour, M
Rahnejat, Homer
Offner, G

It is important to determine realistic inlet boundary conditions to correctly predict lubricant film...

Meniscus formation in the piston compression ring-cylinder liner inlet zone

Ramin Rahmani (1250418)
Gema Styles (1247343)
Homer Rahnejat (1247550)

January 2012

The piston compression ring-cylinder liner contact experiences a transient regime of lubrication. Th...

Description of the test conditions with respect to spring rates and free lengths of spring constraints.

Aiqin Liu (142389)
Eileen Ingham (482430)
John Fisher (4423444)
Louise M. Jennings (6697505)

May 2019

Description of the test conditions with respect to spring rates and free lengths of spring constrain...

Temperatures of cylinder liner at the piston dead centers and the parameters of oil 5W40.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Temperatures of cylinder liner at the piston dead centers and the parameters of oil 5W40.</p

Experimental approaches to the lubricant surface interactions of in-cylinder components

Michael Forder (4784649)

April 2022

Experimental approaches to the lubricant surface interactions of in-cylinder components </p

Average friction forces and their difference rates for the compression ring-cylinder liner system with dimples on the liner when JFO boundary condition and Reynolds boundary condition are used.

Cheng Liu (83733)
Yan-Jun Lu (3070725)
Yong-Fang Zhang (3070722)
Sha Li (145229)
Norbert Müller (244550)

July 2017

<p>Average friction forces and their difference rates for the compression ring-cylinder liner system...

Numerical study on the lubrication performance of compression ring-cylinder liner system with spherical dimples.

Cheng Liu
Yan-Jun Lu
Yong-Fang Zhang
Sha Li
Norbert Müller

January 2017

The effects of surface texture on the lubrication performance of a compression ring-cylinder liner s...

Friction forces for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) hydrodynamic frictions in the active cylinder. (b) asperity frictions in the active cylinder. (c...

FMEP values of the compression ring-cylinder liner system in the active cylinder, deactivated cylinder, and under standard operation condition for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

FMEP values of the compression ring-cylinder liner system in the active cylinder, deactivated cylind...

Minimum oil film thicknesses of the compression ring-cylinder liner system in the active cylinder, deactivated cylinder, and under standard operation condition.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Minimum oil film thicknesses of the compression ring-cylinder liner system in the active cylinder, d...

Evaluation on the tribological performance of ring/liner system under cylinder deactivation with consideration of cylinder liner deformation and oil supply - Fig 14

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) Hydrodynamic frictions for the compression ring-cylinder liner system in the active cylinder, de...

Average power losses and FMEP values for the compression ring-cylinder liner system in the active cylinder, deactivated cylinder, and under the standard operation condition.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Average power losses and FMEP values for the compression ring-cylinder liner system in the active cy...

Evaluation on the tribological performance of ring/liner system under cylinder deactivation with consideration of cylinder liner deformation and oil supply - Fig 10

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) Power losses in the active cylinder for the three cases. (b) power losses in the deactivated cyl...

Minimum oil film thicknesses for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) active cylinder. (b) deactivated cylinder. (c) standard operation condition.</p

Minimum oil film thicknesses between the compression ring and cylinder liner obtained by Gu et al.’s [64] and our models.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Minimum oil film thicknesses between the compression ring and cylinder liner obtained by Gu et al.’s...

Influence of boundary conditions on starvation of piston ring conjunction

Bewsher, R
Mohammadpour, M
Rahnejat, Homer
Offner, G

It is important to determine realistic inlet boundary conditions to correctly predict lubricant film...

Meniscus formation in the piston compression ring-cylinder liner inlet zone

Ramin Rahmani (1250418)
Gema Styles (1247343)
Homer Rahnejat (1247550)

January 2012

The piston compression ring-cylinder liner contact experiences a transient regime of lubrication. Th...

Description of the test conditions with respect to spring rates and free lengths of spring constraints.

Aiqin Liu (142389)
Eileen Ingham (482430)
John Fisher (4423444)
Louise M. Jennings (6697505)

May 2019

Description of the test conditions with respect to spring rates and free lengths of spring constrain...

Temperatures of cylinder liner at the piston dead centers and the parameters of oil 5W40.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

Temperatures of cylinder liner at the piston dead centers and the parameters of oil 5W40.</p

Experimental approaches to the lubricant surface interactions of in-cylinder components

Michael Forder (4784649)

April 2022

Experimental approaches to the lubricant surface interactions of in-cylinder components </p

Average friction forces and their difference rates for the compression ring-cylinder liner system with dimples on the liner when JFO boundary condition and Reynolds boundary condition are used.

Cheng Liu (83733)
Yan-Jun Lu (3070725)
Yong-Fang Zhang (3070722)
Sha Li (145229)
Norbert Müller (244550)

July 2017

<p>Average friction forces and their difference rates for the compression ring-cylinder liner system...

Numerical study on the lubrication performance of compression ring-cylinder liner system with spherical dimples.

Cheng Liu
Yan-Jun Lu
Yong-Fang Zhang
Sha Li
Norbert Müller

January 2017

The effects of surface texture on the lubrication performance of a compression ring-cylinder liner s...

Friction forces for the three cases.

Yanjun Lu (482204)
Cheng Liu (83733)
Yongfang Zhang (2643442)
Jiahui Wang (746367)
Kangrui Yao (5754167)
Yafeng Du (5754170)
Norbert Müller (244550)

September 2018

(a) hydrodynamic frictions in the active cylinder. (b) asperity frictions in the active cylinder. (c...

Widths of lubrication zone and inlet widths of compression ring in the active cylinder, deactivated cylinder, and under the standard operation condition.

Abstract

Extracted data

Widths of lubrication zone and inlet widths of compression ring in the active cylinder, deactivated cylinder, and under the standard operation condition.

Abstract

Extracted data

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