Effect of Load on Dry Sliding Wear of Aluminum-Silicon Alloys
- 1 January 1986
- journal article
- research article
- Published by Taylor & Francis in A S L E Transactions
- Vol. 29 (1) , 116-120
- https://doi.org/10.1080/05698198608981667
Abstract
Aluminum-silicon alloy pins were slid against steel disks under nominally dry condition at a speed of 0.6 m s−1. Each pin was slid at a constant load for 5 min, the load being increased in suitable steps from 2 to 65 N. The results show the wear to increase almost monotonically with load, to be sensitive to the presence of silicon in the alloy, and to be insensitive to actual silicon content. The monotonic nature of wear rate-load characteristic suggests that one dominant wear mechanism prevails over the load range studied. Morphological studies of the pin surface and the debris support this contention and point to delamination as being the dominant mode of wear.Keywords
This publication has 13 references indexed in Scilit:
- Subsurface deformation in dry sliding of hypo-eutectic Al-Si alloysJournal of Materials Science, 1984
- Oxidative wear of aluminium alloys: Part IIWear, 1983
- Scanning electron microscopy study of worn Al-Si alloy surfacesWear, 1983
- The role of transfer and back transfer of metals in the wear of binary AlSi alloysWear, 1982
- Oxidative wear of aluminium alloysWear, 1982
- Scanning electron microscopy studies of wear in LM13 and LM13-graphite particulate compositeWear, 1982
- Subsurface damage in dry wear of Al-Si alloysWear, 1981
- Topographical features observed in a scanning electron microscopy study of aluminium alloy surfaces in sliding wearWear, 1981
- Wear characteristics of as-cast binary aluminium-silicon alloysWear, 1979
- Wear resistance of cast graphitic aluminium alloysWear, 1974