Ex and in situ investigations on the role of persistent slip bands and grain boundaries in fatigue crack initiation

Höppel HW, Goik P, Krechel C, Göken M (2017)


Publication Status: Published

Publication Type: Journal article

Publication year: 2017

Journal

Publisher: CAMBRIDGE UNIV PRESS

Book Volume: 32

Pages Range: 4276-4286

Journal Issue: 23

DOI: 10.1557/jmr.2017.313

Abstract

Polycrystalline copper (99.9%) was fatigued at a total strain amplitude of 0.1 and 0.2%, respectively. The tests were performed in situ under vacuum in a Large Chamber-Scanning Electron Microscope. By a repeated combination of in situ fatigue testing and ex situ focused ion beam milling, a deep insight into the mechanism of fatigue crack initiation and early stages of crack initiation at persistent slip bands (PSBs) and their interaction with grain boundaries was obtained. The EBSD-technique showed early slip activation and the exclusive formation of extrusions in favorably oriented grains until a certain extrusion height was reached. At the total strain amplitude of 0.2%, extrusions are formed not only in favorably oriented grains but also in grains with a lower Schmid factor due to high compatibility stresses at the grain boundaries. Extrusion growth through grain boundaries is affected by the orientation of the primary slip systems in the neighboring grains and the additional anisotropy stresses. It is concluded that early stages of crack initiation are the consequence of the formation of extrusions at PSBs in combination with the clustering of vacancies along the PSB boundaries, as it was proposed by the well-known Essmann-Gosele-Mughrabi model.

Authors with CRIS profile

Additional Organisation(s)

Related research project(s)

How to cite

APA:

Höppel, H.W., Goik, P., Krechel, C., & Göken, M. (2017). Ex and in situ investigations on the role of persistent slip bands and grain boundaries in fatigue crack initiation. Journal of Materials Research, 32(23), 4276-4286. https://dx.doi.org/10.1557/jmr.2017.313

MLA:

Höppel, Heinz Werner, et al. "Ex and in situ investigations on the role of persistent slip bands and grain boundaries in fatigue crack initiation." Journal of Materials Research 32.23 (2017): 4276-4286.

BibTeX: Download