Abstract
High speed steels have a complex carbide pattern in the as-cast state which has to be modified to achieve the desired properties of adequate toughness, hot hardness, and wear resistance. The effects of hot forging and postdeformation annealing on carbide distribution and morphology in M2 grade high speed steel were studied, and it was shown that hot forging accelerates the spheroidization rate of M6C carbide with little effect on coarsening. The mechanism responsible for such acceleration is dominated by mechanical disintegration of M6C carbide plates, while diffusion-controlled spheroidization was not significant. For MC carbide particles, coarsening was the dominant mechanism, but it was not possible to ascertain whether diffusion had been unaffected by deformation or even increased by a factor that could be as high as 10,000 times. Annealing after deformation accelerated spheroidization which was attributed to the damaging of carbide plates during forging rather than an increase in diffusion rate, since the matrix was almost substructure-free in the annealed condition,i.e., lack of short-circuiting paths for diffusion.
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Ghomashchi, M.R., Sellars, C. Microstructural Changes in As-Cast M2 Grade High Speed Steel during Hot Forging. Metall Trans A 24, 2171–2180 (1993). https://doi.org/10.1007/BF02648591
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DOI: https://doi.org/10.1007/BF02648591