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Microstructural Features Controlling the Dry Sliding Wear Response of Some Bearing Alloys

  • Braj Kishore Prasad , Arun Kumar Patwardhan and Ariyur Halasyam Yegneswaran
Published/Copyright: December 4, 2021
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International Journal of Materials Research
From the journal International Journal of Materials Research Volume 88 Issue 10

Abstract

This investigation examines the influence of microstructural features on the dry sliding wear characteristics of some plain bearing alloys. Three different alloys were selected for the study: a leaded-tin bronze, an Al bronze and a Zn-based alloy processed under identical conditions. The wear characteristics of the alloys are explained in terms of the load bearing capability, microcracking tendency, thermal stability and lubricating properties of their microconstituents and the sliding conditions. Wear surfaces, subsurface regions and debris are examined to understand the material removal mechanisms during the process of wear.

B. K. Prasad, A. H. Yegneswaran Regional Research Laboratory (CSIR) Habibganj Naka, Bhopal-462 026, India
A. K. Patwardhan Metallurgical Engineering Department University of Roorkee Roorkee-247 667, India

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Received: 1997-02-03
Published Online: 2021-12-04

© 1997 Carl Hanser Verlag, München

Articles in the same Issue

  1. Frontmatter
  2. Aufsätze
  3. Automatic Determination of Dendritic Arm Spacing in Directionally Solidified Matters
  4. Microstructure and Mechanical Properties of Titanium Castings
  5. Microstructural Features Controlling the Dry Sliding Wear Response of Some Bearing Alloys
  6. Correlation of Microstructure and Giant Magnetoresistance in Electrodeposited Ni – Cu/Cu Multilayers
  7. Microstructure-related Modelling of the Deformation Behaviour of the Superalloy CoCr22Ni22W14
  8. An Assessment of the Si Mobility and the Application to Phase Transformations in Silicon Steels
  9. Simulated Weld HAZ of Vanadium Modified 2.25Cr-1Mo Steel
  10. The Metastable Miscibility Gap in the System Fe–Cu
  11. Precipitation in Iron Aluminides Containing Carbon and Titanium, Zirconium or Niobium
  12. Use of a Single Zirconia Electrolyte Cell to Measure Basicity in Binary and Ternary Carbonate Melts
  13. Adsorption Studies of Water on Copper, Nickel, and Iron: Assessment of the Polarization Model
  14. Mitteilungen der Deutschen Gesellschaft für Materialkunde e.V
  15. Personen
  16. Terminkalender
https://doi.org/10.3139/ijmr-1997-0146

Articles in the same Issue

  1. Frontmatter
  2. Aufsätze
  3. Automatic Determination of Dendritic Arm Spacing in Directionally Solidified Matters
  4. Microstructure and Mechanical Properties of Titanium Castings
  5. Microstructural Features Controlling the Dry Sliding Wear Response of Some Bearing Alloys
  6. Correlation of Microstructure and Giant Magnetoresistance in Electrodeposited Ni – Cu/Cu Multilayers
  7. Microstructure-related Modelling of the Deformation Behaviour of the Superalloy CoCr22Ni22W14
  8. An Assessment of the Si Mobility and the Application to Phase Transformations in Silicon Steels
  9. Simulated Weld HAZ of Vanadium Modified 2.25Cr-1Mo Steel
  10. The Metastable Miscibility Gap in the System Fe–Cu
  11. Precipitation in Iron Aluminides Containing Carbon and Titanium, Zirconium or Niobium
  12. Use of a Single Zirconia Electrolyte Cell to Measure Basicity in Binary and Ternary Carbonate Melts
  13. Adsorption Studies of Water on Copper, Nickel, and Iron: Assessment of the Polarization Model
  14. Mitteilungen der Deutschen Gesellschaft für Materialkunde e.V
  15. Personen
  16. Terminkalender
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