Quantifying internal stress and internal resistance associated with thermal ageing and creep in a polycrystalline material
Quantifying internal stress and internal resistance associated with thermal ageing and creep in a polycrystalline material
In situ neutron diffraction combined with the incremental deformation at room temperature has been used to provide a measure of the internal stress and internal resistance generated by prior inelastic deformation at high temperature in an austenitic stainless steel. Interactions between the internal stress and internal resistance are considered explicitly by using the proposed measurement technique. The magnitude of the intergranular internal stress is found to be a function of the total inelastic strain created by prior high temperature deformation. The deviation from linearity observed in the lattice strain response is used to derive the microscopic internal resistance, but a crystal plasticity model is required to infer the absolute value. The macroscopic internal resistance is shown to be consistent with Taylor hardening. A refined internal state concept is proposed based on the Kocks–Mecking model to provide a further step to predict the inelastic deformation.
207-219
Chen, B.
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Hu, J.N.
02f6be18-32aa-4627-8bbd-001ff4bee9c6
Flewitt, P.E.J.
f4ac343e-c50c-45e0-8290-e43978274645
Smith, D.J.
60377470-3beb-43bf-8d03-e7fcfe5e625f
Cocks, A.C.F.
58b0c2c2-5987-488d-80bb-8cea9dbbb7e9
Zhang, S.Y.
b65c08fd-757c-491c-beb7-2fae9057ebf2
April 2014
Chen, B.
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Hu, J.N.
02f6be18-32aa-4627-8bbd-001ff4bee9c6
Flewitt, P.E.J.
f4ac343e-c50c-45e0-8290-e43978274645
Smith, D.J.
60377470-3beb-43bf-8d03-e7fcfe5e625f
Cocks, A.C.F.
58b0c2c2-5987-488d-80bb-8cea9dbbb7e9
Zhang, S.Y.
b65c08fd-757c-491c-beb7-2fae9057ebf2
Chen, B., Hu, J.N. and Flewitt, P.E.J.
,
et al.
(2014)
Quantifying internal stress and internal resistance associated with thermal ageing and creep in a polycrystalline material.
Acta Materialia, 67, .
(doi:10.1016/j.actamat.2013.12.027).
Abstract
In situ neutron diffraction combined with the incremental deformation at room temperature has been used to provide a measure of the internal stress and internal resistance generated by prior inelastic deformation at high temperature in an austenitic stainless steel. Interactions between the internal stress and internal resistance are considered explicitly by using the proposed measurement technique. The magnitude of the intergranular internal stress is found to be a function of the total inelastic strain created by prior high temperature deformation. The deviation from linearity observed in the lattice strain response is used to derive the microscopic internal resistance, but a crystal plasticity model is required to infer the absolute value. The macroscopic internal resistance is shown to be consistent with Taylor hardening. A refined internal state concept is proposed based on the Kocks–Mecking model to provide a further step to predict the inelastic deformation.
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Accepted/In Press date: 16 December 2013
e-pub ahead of print date: 25 January 2014
Published date: April 2014
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Local EPrints ID: 489913
URI: http://eprints.soton.ac.uk/id/eprint/489913
ISSN: 1359-6454
PURE UUID: 79420e2d-9121-44ef-b047-4ddeeda38d2a
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Date deposited: 07 May 2024 16:44
Last modified: 08 May 2024 02:08
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Author:
B. Chen
Author:
J.N. Hu
Author:
P.E.J. Flewitt
Author:
D.J. Smith
Author:
A.C.F. Cocks
Author:
S.Y. Zhang
Corporate Author: et al.
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