Dominating deformation mechanisms in ultrafine-grained chromium across length scales and temperatures
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Abstract
The microstructure influence on the thermally activated deformation behaviour of chromium is investigated for a more fundamental understanding of the deformation mechanisms contributing to plasticity in bcc metals. Therefore, scale-bridging experiments at variable temperatures and varying strain-rates are performed, encompassing macroscopic compression tests in direct correlation to local in-situ SEM micro-compression experiments on taper-free pillars and advanced nanoindentation testing. For the first time, it is demonstrated that, independent of stress state, sample volume and surface fraction, a distinct temperature-dependent transition of the dominating deformation mechanism occurs. While at low temperatures the lattice resistance dominates, exceeding a critical temperature the dislocation interaction with grain boundaries becomes the rate limiting step. Finally, based on the vastly different fractions of grain boundaries in the tested sample volumes, a comprehensive model on the deformation of bcc metals, in particular at small scales or for confined volumes is derived.
Details
Originalsprache | Englisch |
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Seiten (von - bis) | 176-187 |
Seitenumfang | 12 |
Fachzeitschrift | Acta materialia |
Jahrgang | 140.2017 |
Ausgabenummer | November |
Frühes Online-Datum | 22 Aug. 2017 |
DOIs | |
Status | Veröffentlicht - 1 Nov. 2017 |