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1-20 of 41989
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Journal Articles
Accepted Manuscript
Journal:
Journal of Tribology
Publisher: ASME
Article Type: Technical Briefs
J. Tribol.
Paper No: TRIB-23-1458
Published Online: March 18, 2024
Journal Articles
Accepted Manuscript
Journal:
Journal of Tribology
Publisher: ASME
Article Type: Research Papers
J. Tribol.
Paper No: TRIB-23-1353
Published Online: March 18, 2024
Journal Articles
Accepted Manuscript
Journal:
Journal of Tribology
Publisher: ASME
Article Type: Research Papers
J. Tribol.
Paper No: TRIB-23-1401
Published Online: March 14, 2024
Journal Articles
Journal:
Journal of Tribology
Publisher: ASME
Article Type: Research Papers
J. Tribol. July 2024, 146(7): 074101.
Paper No: TRIB-23-1274
Published Online: March 13, 2024
Journal Articles
Nitesh Kumar Sinha, Ishwari Narain Choudhary, Rabindra Prasad, Manik Mahali, Mukesh Raushan Kumar, Jayant Kumar Singh
Journal:
Journal of Tribology
Publisher: ASME
Article Type: Research Papers
J. Tribol. July 2024, 146(7): 071702.
Paper No: TRIB-23-1336
Published Online: March 13, 2024
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 1 Schematics of ( a ) the nominal geometry of EHL finite line contact and ( b ) typical contact pressure distribution of EHL finite line contact of straight profile More about this image found in Schematics of ( a ) the nominal geometry of EHL finite line contact and ( b...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 2 Geometric relationship among elastic deformation, oil film thickness, and initial gap for each slice of EHL contact More about this image found in Geometric relationship among elastic deformation, oil film thickness, and i...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 3 Relative errors between central film thickness calculated by EHL full-system model [ 9 ] and different empirical formulas: ( a ) Grubin’s formula [ 19 ], ( b ) Dowson’s formula [ 20 ], ( c ) Pan’s formula [ 21 ], and ( d ) Masjedi’s formula [ 22 ] More about this image found in Relative errors between central film thickness calculated by EHL full-syste...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 4 The schematic of slicing coupling behavior More about this image found in The schematic of slicing coupling behavior
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 5 Schematic of the numerical model to study the surface settlement caused by a single slice load More about this image found in Schematic of the numerical model to study the surface settlement caused by ...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 6 Flowchart of the solving procedure of the fast calculation approach More about this image found in Flowchart of the solving procedure of the fast calculation approach
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 7 Force diagram of a roller in tapered roller bearing More about this image found in Force diagram of a roller in tapered roller bearing
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 8 Contact pressure at the central position in the contact region and computational time for a logarithmically profiled contact in NU214 calculated by the EHL full-system model with different discrete densities under the contact load of 3 kN and entrainment velocity of 7.25 m/s More about this image found in Contact pressure at the central position in the contact region and computat...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 9 Load–displacement curves of the proposed approach and the benchmark model for the contact of logarithmic profile: ( a ) force–translation curves with no tilting moment acting on the contact body and ( b ) moment–rotation curves with a 3 kN normal contact force acting on the contact body More about this image found in Load–displacement curves of the proposed approach and the benchmark model f...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 10 Contact states along the contact line for the contact of logarithmic profile (Eq. (27) ) under load cases A and C, calculated by the proposed approach and the benchmark model: ( a ) contact pressure distribution along the contact line, ( b ) central and minimum film thickness distribution... More about this image found in Contact states along the contact line for the contact of logarithmic profil...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 11 Contact states along the contact line for the contact of logarithmic profile (Eq. (27) ) under load cases B and D, calculated by the proposed approach and the benchmark model: ( a ) contact pressure distribution along the contact line for load case B, ( b ) central and minimum film thickn... More about this image found in Contact states along the contact line for the contact of logarithmic profil...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 12 Contact states along the contact line for the contact of logarithmic profile (Eq. (27) ) under load cases E1 and E2, calculated by the proposed approach and the benchmark model: ( a ) contact pressure distribution along the contact line, ( b ) central and minimum film thickness distributi... More about this image found in Contact states along the contact line for the contact of logarithmic profil...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 13 Contact states along the contact line for the contact of partially crowned profile (Eq. (28) ) under the load cases E1 and E2, calculated by the proposed approach and the benchmark model: ( a ) contact pressure distribution along the contact line, ( b ) central and minimum film thickness ... More about this image found in Contact states along the contact line for the contact of partially crowned ...
Image
in A Fast Calculation Approach for Elastohydrodynamic Finite Line Contacts Applicable to Online Calculations of Rolling Bearing Models
> Journal of Tribology
Published Online: March 13, 2024
Fig. 14 Contact states along the contact line for the contact of straight profile under the load cases E1 and E2, calculated by the proposed approach and the benchmark model: ( a ) contact pressure distribution along the contact line, ( b ) central and minimum film thickness distribution for load ... More about this image found in Contact states along the contact line for the contact of straight profile u...
Image
in Comparative Studies of Microstructural, Mechanical, and Tribological Behavior of A319 Alloy Cast in Solid Waste Mold and Conventional Sand Mold
> Journal of Tribology
Published Online: March 13, 2024
Fig. 5 Dendritic microstructure of A319 cast in different mold: ( a ) 7BF, ( b ) 7FS, and ( c ) 7OL and secondary dendritic arm spacing More about this image found in Dendritic microstructure of A319 cast in different mold: ( a ) 7BF, ( b ) 7...
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