Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights
Additive manufacturing (AM) holds great promise for delivering benefits in repair of aerospace components. To fully exploit the benefits of AM, it is crucial to demonstrate that AM-produced components satisfy the performance criteria specified by the aerospace industry relative to conventional wroug...
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sg-ntu-dr.10356-1712192023-10-17T06:05:13Z Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights Nagalingam, Arun Prasanth Gopasetty, Sharan Kumar Wang, Jingjing Yuvaraj, Hemanth Kumar Gopinath, Abhay Yeo, Swee Hock School of Mechanical and Aerospace Engineering Rolls-Royce@NTU Corporate Lab Engineering::Mechanical engineering Titanium Alloys Powder Bed Fusion Additive manufacturing (AM) holds great promise for delivering benefits in repair of aerospace components. To fully exploit the benefits of AM, it is crucial to demonstrate that AM-produced components satisfy the performance criteria specified by the aerospace industry relative to conventional wrought material. This research assesses the performance of laser-powder bed fused (L-PBF) and wrought Ti-6Al-4V coupons following the aerospace method of manufacture (MoM), which ensures that the material undergoes both surface and sub-surface enhancement to meet fatigue requirements. The results reveal that the aerospace MoM-treated L-PBF Ti-6Al-4V coupons exhibit superior fatigue life compared to their wrought counterparts. Furthermore, it is understood that the vibratory polishing process retains the beneficial compressive residual stress from shot peening, while simultaneously enhancing the surface finish and fatigue life. Finally, a life-cycle cost model assessment highlights that the L-PBF coupons have superior fatigue life and are cost-effective particularly for low-volume repairs, while the use of wrought material is economical for large-volume repair but may compromise fatigue life. Agency for Science, Technology and Research (A*STAR) This study is supported under the RIE2020 Industry Alignment Fund – Industry Collaboration Projects (IAF-ICP) Funding Initiative, as well as cash and in-kind contribution from Rolls-Royce Singapore Pte Ltd. 2023-10-17T06:05:13Z 2023-10-17T06:05:13Z 2023 Journal Article Nagalingam, A. P., Gopasetty, S. K., Wang, J., Yuvaraj, H. K., Gopinath, A. & Yeo, S. H. (2023). Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights. International Journal of Fatigue, 176, 107879-. https://dx.doi.org/10.1016/j.ijfatigue.2023.107879 0142-1123 https://hdl.handle.net/10356/171219 10.1016/j.ijfatigue.2023.107879 2-s2.0-85168421007 176 107879 en International Journal of Fatigue © 2023 Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Titanium Alloys Powder Bed Fusion Nagalingam, Arun Prasanth Gopasetty, Sharan Kumar Wang, Jingjing Yuvaraj, Hemanth Kumar Gopinath, Abhay Yeo, Swee Hock Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights |
| description |
Additive manufacturing (AM) holds great promise for delivering benefits in repair of aerospace components. To fully exploit the benefits of AM, it is crucial to demonstrate that AM-produced components satisfy the performance criteria specified by the aerospace industry relative to conventional wrought material. This research assesses the performance of laser-powder bed fused (L-PBF) and wrought Ti-6Al-4V coupons following the aerospace method of manufacture (MoM), which ensures that the material undergoes both surface and sub-surface enhancement to meet fatigue requirements. The results reveal that the aerospace MoM-treated L-PBF Ti-6Al-4V coupons exhibit superior fatigue life compared to their wrought counterparts. Furthermore, it is understood that the vibratory polishing process retains the beneficial compressive residual stress from shot peening, while simultaneously enhancing the surface finish and fatigue life. Finally, a life-cycle cost model assessment highlights that the L-PBF coupons have superior fatigue life and are cost-effective particularly for low-volume repairs, while the use of wrought material is economical for large-volume repair but may compromise fatigue life. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Nagalingam, Arun Prasanth Gopasetty, Sharan Kumar Wang, Jingjing Yuvaraj, Hemanth Kumar Gopinath, Abhay Yeo, Swee Hock |
| format |
Article |
| author |
Nagalingam, Arun Prasanth Gopasetty, Sharan Kumar Wang, Jingjing Yuvaraj, Hemanth Kumar Gopinath, Abhay Yeo, Swee Hock |
| author_sort |
Nagalingam, Arun Prasanth |
| title |
Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights |
| title_short |
Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights |
| title_full |
Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights |
| title_fullStr |
Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights |
| title_full_unstemmed |
Comparative fatigue analysis of wrought and laser powder bed fused Ti-6Al-4V for aerospace repairs: academic and industrial insights |
| title_sort |
comparative fatigue analysis of wrought and laser powder bed fused ti-6al-4v for aerospace repairs: academic and industrial insights |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171219 |
| _version_ |
1781793761244741632 |