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3D HR-EBSD Characterization of the plastic zone around crack tips in tungsten single crystals at the micron scale

 
: Kalácska, Szilvia; Ast, Johannes; Ispánovity, Péter Dusán; Michler, Johann; Maeder, Xavier

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Volltext ()

Acta Materialia 200 (2020), S.211-222
ISSN: 1359-6454
ISSN: 1873-2453
European Commission EC
H2020; 754364; EMPAPOSTDOCS-II
EMPAPOSTDOCS-II MSCA COFUND International, interdisciplinary, inter-sectoral PostDoc Fellowship Programme at Empa
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IKTS ()
J-Integral testing; fracture mechanism; 3D Characterization; electron backscatter diffraction (EBSD); micromechanic

Abstract
High angular resolution electron backscatter diffraction (HR-EBSD) was coupled with focused ion beam (FIB) slicing to characterize the shape of the plastic zone in terms of geometrically necessary dislocations (GNDs) in W single crystal in 3 dimensions. Cantilevers of similar size with a notch were fabricated by FIB and were deformed inside a scanning electron microscope at different temperatures (21 ∘C, 100 ∘C and 200 ∘C) just above the micro-scale brittle-to-ductile transition (BDT). J-integral testing was performed to analyse crack growth and determine the fracture toughness. At all three temperatures the plastic zone was found to be larger close to the free surface than inside the specimen, similar to macro-scale tension tests. However, at higher temperature, the 3D shape of the plastic zone changes from being localized in front of the crack tip to a butterfly-like distribution, shielding more efficiently the crack tip and inhibiting crack propagation. A comparison was made between two identically deformed samples, which were FIB-sliced from two different directions, to evaluate the reliability of the GND density estimation by HR-EBSD. The analysis of the distribution of the Nye tensor components was used to differentiate between the types of GNDs nucleated in the sample. The role of different types of dislocations in the plastic zone is discussed and we confirm earlier findings that the micro-scale BDT of W is mainly controlled by the nucleation of screw dislocations in front of the crack tip.

: http://publica.fraunhofer.de/dokumente/N-605709.html