Evaluating surface deformation and near surface strain hardening resulting from shot peening a tempered martensitic steel and application to low cycle fatigue
Evaluating surface deformation and near surface strain hardening resulting from shot peening a tempered martensitic steel and application to low cycle fatigue
The plastic deformation resulting from shot peening treatments applied to the ferritic heat resistant steel FV448 has been investigated. Two important effects have been quantified: surface roughness and strain hardening. 2D and 3D tactile and optical techniques for determining surface roughness amplitude parameters have been investigated; it was found that whilst Ra and Sa were consistent, Sz was generally higher than Rz due to the increased probability of finding the worst case surface feature. Three different methods for evaluating the plastic strain profile have been evaluated with a view to establishing the variation in yield strength near the surface of a shot peened component. Microhardness, x-ray diffraction (XRD) line broadening and electron backscatter diffraction (EBSD) local misorientation techniques were applied to both uniaxially deformed calibration samples of known plastic strain and samples shot peened at intensities varying from 4A to 18A to establish the variation in plastic strain and hence the variation in yield strength. The results from the three methods were compared; XRD and EBSD profiles were found to be the most similar with microhardness profiles extending much deeper into the sample. Changes in the measured plastic strain profile after exposure to low cycle fatigue and the correlation of these changes with the cyclic stress-strain behaviour of the material are also discussed with a view to assessing the importance of the dislocation profile in component life assessment procedures.
plastic deformation, shot peening, low cycle fatigue, x-ray diffraction, electron backscatter diffraction
106-117
Soady, K.A.
5a0739bd-5c9b-4b49-b4c7-105a79719a63
Mellor, B.G.
2b13b80f-880b-49ac-82fe-827a15dde2fe
West, G.D.
8cca2345-a797-4022-9198-fd25704db31e
Morris, A.
378f6b9c-92e7-4783-b7be-cafca74b5372
Reed, P.A.S.
8b79d87f-3288-4167-bcfc-c1de4b93ce17
September 2013
Soady, K.A.
5a0739bd-5c9b-4b49-b4c7-105a79719a63
Mellor, B.G.
2b13b80f-880b-49ac-82fe-827a15dde2fe
West, G.D.
8cca2345-a797-4022-9198-fd25704db31e
Morris, A.
378f6b9c-92e7-4783-b7be-cafca74b5372
Reed, P.A.S.
8b79d87f-3288-4167-bcfc-c1de4b93ce17
Soady, K.A., Mellor, B.G., West, G.D., Morris, A. and Reed, P.A.S.
(2013)
Evaluating surface deformation and near surface strain hardening resulting from shot peening a tempered martensitic steel and application to low cycle fatigue.
International Journal of Fatigue, 54, .
(doi:10.1016/j.ijfatigue.2013.03.019).
Abstract
The plastic deformation resulting from shot peening treatments applied to the ferritic heat resistant steel FV448 has been investigated. Two important effects have been quantified: surface roughness and strain hardening. 2D and 3D tactile and optical techniques for determining surface roughness amplitude parameters have been investigated; it was found that whilst Ra and Sa were consistent, Sz was generally higher than Rz due to the increased probability of finding the worst case surface feature. Three different methods for evaluating the plastic strain profile have been evaluated with a view to establishing the variation in yield strength near the surface of a shot peened component. Microhardness, x-ray diffraction (XRD) line broadening and electron backscatter diffraction (EBSD) local misorientation techniques were applied to both uniaxially deformed calibration samples of known plastic strain and samples shot peened at intensities varying from 4A to 18A to establish the variation in plastic strain and hence the variation in yield strength. The results from the three methods were compared; XRD and EBSD profiles were found to be the most similar with microhardness profiles extending much deeper into the sample. Changes in the measured plastic strain profile after exposure to low cycle fatigue and the correlation of these changes with the cyclic stress-strain behaviour of the material are also discussed with a view to assessing the importance of the dislocation profile in component life assessment procedures.
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e-pub ahead of print date: 6 April 2013
Published date: September 2013
Keywords:
plastic deformation, shot peening, low cycle fatigue, x-ray diffraction, electron backscatter diffraction
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 351782
URI: http://eprints.soton.ac.uk/id/eprint/351782
ISSN: 0142-1123
PURE UUID: c8ffe434-babe-4d32-a919-9d2e68ab4e64
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Date deposited: 29 Apr 2013 13:29
Last modified: 15 Mar 2024 02:45
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Contributors
Author:
K.A. Soady
Author:
B.G. Mellor
Author:
G.D. West
Author:
A. Morris
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