The wear and seizure behaviour of binary Al-Si alloys containing up to
23% Si has been investigated in sliding against a hard steel counterf
ace by continuous loading experiments carried out in a pin-on-disc mac
hine. Addition of silicon to pure aluminium improves wear and seizure
resistance. The wear characteristics of alloys containing 7-17% Si, wh
en considered as a function of load, exhibit distinct mild wear, sever
e wear and seizure regimes. Mild wear is characterised by the in situ
formation of a protective iron-rich compacted layer. The severe wear i
s initiated when the protective layer is removed as a result of subsur
face flow. On further increment of load this leads to seizure. Based o
n morphological observations in SEM, a qualitative model has been prop
osed for the wear behaviour of this group of alloys. An alloy containi
ng 23% Si exhibits only mild and severe wear regimes and does not show
any seizure within the present experimental limits. The alloy has low
thermal conductivity and is prone to plastic flow instabilities as ob
served in compression tests. Because of these factors, the critical co
ntact temperature required for seizure is not attained under the test
conditions.