Characterisation of strain localisation under cyclic loading at 450 °C by SEM-DIC in a PM Ni-based superalloy
Characterisation of strain localisation under cyclic loading at 450 °C by SEM-DIC in a PM Ni-based superalloy
In this study, the strain localisation under cyclic loading in an advanced powder metallurgy Ni-based superalloy at 450 °C was characterised by SEM-DIC, and the related deformation substructures were characterised by electron channelling contrast imaging under controlled diffraction conditions (cECCI). The results indicate strain mainly accumulates in slip/strain bands due to dislocation slip on the {111} plane, and the strain saturates at 1000 cycles with no evident increase in strain value within strain bands or strain band density from 1000 cycles to 10,000 cycles. Analysis of the strain components in the local coordinates associated with each strain band shows the strain band mainly consists of shear strain ϵxy along the strain band and transverse strain ϵyy normal to the strain band. The strain bands can transmit through, be deflected, or be blocked at grain boundaries depending on the grain boundary characteristics and the neighbouring grain orientation. Comparing the strain bands obtained by SEM-DIC and deformation substructures obtained by cECCI shows that the strain bands originate from underlying continuous slip bands which show the sheared γ′ within the slip bands and dislocation pairs looping around the γ′ precipitates, but the deformation localised in the discontinuous slip bands is not well characterised by SEM-DIC at this lateral resolution of strain.
Zhao, Y.
160cdd29-f0be-42c3-8627-c86c53dad2eb
Jiang, Rong
b78f0919-0168-43cd-9cda-dd922d8776bf
Harte, A.
dc2a0db1-81e3-48ac-80f2-11e65e47ec18
Bull, Daniel John
ea5a1ecb-13cf-4267-a73d-c0c718d0abbf
Reed, Philippa
8b79d87f-3288-4167-bcfc-c1de4b93ce17
19 June 2022
Zhao, Y.
160cdd29-f0be-42c3-8627-c86c53dad2eb
Jiang, Rong
b78f0919-0168-43cd-9cda-dd922d8776bf
Harte, A.
dc2a0db1-81e3-48ac-80f2-11e65e47ec18
Bull, Daniel John
ea5a1ecb-13cf-4267-a73d-c0c718d0abbf
Reed, Philippa
8b79d87f-3288-4167-bcfc-c1de4b93ce17
Zhao, Y., Jiang, Rong, Harte, A., Bull, Daniel John and Reed, Philippa
(2022)
Characterisation of strain localisation under cyclic loading at 450 °C by SEM-DIC in a PM Ni-based superalloy.
Materials Science and Engineering: A, 849.
(doi:10.1016/j.msea.2022.143464).
Abstract
In this study, the strain localisation under cyclic loading in an advanced powder metallurgy Ni-based superalloy at 450 °C was characterised by SEM-DIC, and the related deformation substructures were characterised by electron channelling contrast imaging under controlled diffraction conditions (cECCI). The results indicate strain mainly accumulates in slip/strain bands due to dislocation slip on the {111} plane, and the strain saturates at 1000 cycles with no evident increase in strain value within strain bands or strain band density from 1000 cycles to 10,000 cycles. Analysis of the strain components in the local coordinates associated with each strain band shows the strain band mainly consists of shear strain ϵxy along the strain band and transverse strain ϵyy normal to the strain band. The strain bands can transmit through, be deflected, or be blocked at grain boundaries depending on the grain boundary characteristics and the neighbouring grain orientation. Comparing the strain bands obtained by SEM-DIC and deformation substructures obtained by cECCI shows that the strain bands originate from underlying continuous slip bands which show the sheared γ′ within the slip bands and dislocation pairs looping around the γ′ precipitates, but the deformation localised in the discontinuous slip bands is not well characterised by SEM-DIC at this lateral resolution of strain.
Text
Characterisation of strain localisation under cyclic loading at 450 oC by SEM-DIC in a PM Ni-based superalloy
- Accepted Manuscript
More information
Accepted/In Press date: 11 June 2022
e-pub ahead of print date: 16 June 2022
Published date: 19 June 2022
Additional Information:
RJ would like to thank the National Natural Science Foundation of China (No. 51805251; 11872204), the Natural Science Foundation of Jiangsu Province (No. BK20180434) for financial support. PAS would like to thank the Engineering and Physical Sciences Research Council (No. EP/M000710/1) in the UK for financial support. Thanks are also due to Dr. Tim Gabb at NASA Glenn Research Centre for the supply of LSHR alloy, to Prof F. Pierron for provision of the MatchID software, and to Prof M. Preuss for his assistance of cECCI characterisation of deformation substructures in LSHR alloy.
Identifiers
Local EPrints ID: 483089
URI: http://eprints.soton.ac.uk/id/eprint/483089
ISSN: 0921-5093
PURE UUID: dbd72b56-1010-4b07-8d8c-d0c4bfdb1866
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Date deposited: 23 Oct 2023 16:39
Last modified: 17 Mar 2024 02:39
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Contributors
Author:
Y. Zhao
Author:
Rong Jiang
Author:
A. Harte
Author:
Daniel John Bull
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