Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V
Deep Cold Rolling (DCR) is a mechanical surface treatment method that has been proven to enhance fatigue life of components by inducing deep compressive residual stress (RS), increasing surface hardness and improving surface roughness. This work analyzes the effect of DCR on RS and coupled with the...
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Nanyang Technological University
2018
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sg-ntu-dr.10356-736462023-03-11T18:01:06Z Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V Lim, Andre Sian Lak - School of Mechanical and Aerospace Engineering Rolls-Royce Singapore Sylvie Castagne CASTAGNE@ntu.edu.sg DRNTU::Engineering::Materials::Metallic materials::Alloys DRNTU::Engineering::Manufacturing::Product engineering Deep Cold Rolling (DCR) is a mechanical surface treatment method that has been proven to enhance fatigue life of components by inducing deep compressive residual stress (RS), increasing surface hardness and improving surface roughness. This work analyzes the effect of DCR on RS and coupled with the finite element (FE) modelling, deepens the understanding of the mechanics of how DCR imparts the RS into the component, especially at the sub-surface region. A three-zone RS profile hypothesis is developed and proven through the use of microstructure and hardness analysis. An analytical model is also developed to predict the RS profile based on the key performance variable inputs. This allows designers and engineers a quick method of developing a starting point for experimentation. The knowledge gained is applied to thin aerofoil-foil like specimens and a technique for achieving a compressive RS zone away from the treated region is proposed. Doctor of Philosophy 2018-04-02T08:16:41Z 2018-04-02T08:16:41Z 2018 Thesis-Doctor of Philosophy Lim, A. S. L. (2018). Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V. Doctoral thesis, Nanyang Technological University, Singapore. http://hdl.handle.net/10356/73646 10.32657/10356/73646 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). 268 p. application/pdf Nanyang Technological University |
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DRNTU::Engineering::Materials::Metallic materials::Alloys DRNTU::Engineering::Manufacturing::Product engineering Lim, Andre Sian Lak Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V |
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Deep Cold Rolling (DCR) is a mechanical surface treatment method that has been proven to enhance fatigue life of components by inducing deep compressive residual stress (RS), increasing surface hardness and improving surface roughness. This work analyzes the effect of DCR on RS and coupled with the finite element (FE) modelling, deepens the understanding of the mechanics of how DCR imparts the RS into the component, especially at the sub-surface region. A three-zone RS profile hypothesis is developed and proven through the use of microstructure and hardness analysis. An analytical model is also developed to predict the RS profile based on the key performance variable inputs. This allows designers and engineers a quick method of developing a starting point for experimentation. The knowledge gained is applied to thin aerofoil-foil like specimens and a technique for achieving a compressive RS zone away from the treated region is proposed. |
| author2 |
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| author_facet |
- Lim, Andre Sian Lak |
| format |
Thesis-Doctor of Philosophy |
| author |
Lim, Andre Sian Lak |
| author_sort |
Lim, Andre Sian Lak |
| title |
Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V |
| title_short |
Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V |
| title_full |
Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V |
| title_fullStr |
Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V |
| title_full_unstemmed |
Analysis and prediction of residual stress in deep cold rolling of Ti-6Al-4V |
| title_sort |
analysis and prediction of residual stress in deep cold rolling of ti-6al-4v |
| publisher |
Nanyang Technological University |
| publishDate |
2018 |
| url |
http://hdl.handle.net/10356/73646 |
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1761781576623980544 |