Abstract Effects of casting thickness on microstructure, mechanical properties and abrasion resistance of Fe-B cast alloy have been systematically investigated. The results show that the microstructures of as-cast Fe-B alloy… Click to show full abstract
Abstract Effects of casting thickness on microstructure, mechanical properties and abrasion resistance of Fe-B cast alloy have been systematically investigated. The results show that the microstructures of as-cast Fe-B alloy mainly consist of martensite, pearlite and M 2 B; with increasing of casting thickness, the V m / V p (where V p shows volume fraction of pearlite and V m shows volume fraction of martensite) decreases, while the morphology, composition and V b (volume fraction of boride) of Fe-B alloy are nearly unchanged. Moreover, with increasing of casting thickness, the microhardnesses of martensite, pearlite and M 2 B have little change, while the bulk hardness of as-cast Fe-B alloy decreases in a line relationship (y = −0.33x+64.67) owning to the decreasing of V m / V p . During wear process, the predominant wear mechanism of as-cast Fe-B alloy may change from microcutting to microploughing with decreasing V m / V p , resulting in the more and more boride being crushed by F ⊥ . As a result, the wear weight loss of Fe-B increases (i.e. the abrasion resistance decreases) with the decreasing of V m / V p , indicating that the V m / V p has positive influence on abrasion resistance of Fe-B cast alloy.
               
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