Abstract
NiTiHf high-temperature shape memory alloy ingots with transformation temperatures above 100 °C were produced by vacuum induction melting (VIM) and vacuum arc melting (VAM). The effects of melting process and compositional changes were investigated on hot rolling of cast samples. The amount of (Ti,Hf)2Ni second phase which was formed during solidification and the (Ti,Hf)C formed due to graphite crucible using in VIM have significantly affected the microstructure of the cast sample due to poor coherency, which affected the hot-rolling behavior. Optical microscopy, scanning electron microscopy, and energy dispersive spectroscopy were used to inspect the observed cracks in the microstructure after the hot-rolling process. The results displayed that the formation of (Ti,Hf)C and the existence of (Ti,Hf)2Ni second phase had harmful effects on the workability of the cast specimen due to the feeble coherency of (Ti,Hf)C and (Ti,Hf)2 Ni with the matrix, which caused a failure in the hot-rolled specimen. The Ni50Ti40Hf10 alloy produced by VAM shows better workability in hot rolling due to lower amount of (Ti,Hf)2Ni, (Ti,Hf)C phases.
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