Abstract The formation of a surface layer of cobalt binder during sintering of cemented carbides is widely known and has been thoroughly discussed in literature. The phenomenon occurs upon cooling, however the details of the mechanism are still uncertain. To further investigate the mechanism, different cooling experiments and atmospheres were combined with in situ observations of sample surfaces during cooling, acquiring new data about the timescale and temperature range in which the formation of the layer takes place. Based on these results, the authors propose a new mechanism for the cobalt layer formation. After an initial transport of liquid cobalt towards the surface, caused by the slightly decarburizing conditions during vacuum sintering, the high surface tension of liquid cobalt governs the formation of the layer. If the formation of a cobalt surface layer is provoked, this implies limits for the achievable layer thickness and also confirms known measures to prevent the cobalt layer formation. Fast cooling or cooling under carburizing conditions can prevent the cobalt layer formation.

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