The nature of the brittle-to-ductile transition of ultra fine grained tungsten (W) foil

The aim of this work is to answer the question of whether an ultra fine grained (UFG) microstructure has an impact on the nature of the brittle-to-ductile transition (BDT) of tungsten. Therefore, four-point bend tests were performed using unnotched 100μm UFG tungsten foil and annealed coarse-grained polycrystalline tungsten foil (2073K for 2h in vacuum) with exactly the same chemical composition and dimensions. The reported results for coarse-grained tungsten foil show a strain-rate dependent BDT that occurs between 350 and 450K. The activation energy of the BDT, EBDT, for the coarse-grained material was deduced to be 2.9 (+2.6/−0.9)eV. The results obtained from UFG tungsten foil indicate a strain-rate independent BDT at relatively low temperatures (≈77K). The strong disparity in the nature of the BDT can be attributed solely to the presence of microstructural differences. The possible mechanism controlling the BDT in tungsten for both tungsten foil conditions will be discussed against this background and in the light of previous studies performed on the nature of the BDT of tungsten reported in pertinent literature. [Display omitted] •The BDT of UFG W foil was found to be at 77K.•The mechanism controlling the BDT in coarse and UFG W foil appears to be different.•The nature of the BDT of UFG W foil indicates an edge dislocation controlled BDT.