Experimental study of diamond turned quilt formation in metal foams and using simulated pores
Sandwich structures used to lightweight telescope mirrors result in subsurface pore or cell-induced surface deformation (called quilting), in the unsupported sub-surface regions, during diamond turning of the optical surface. An alternative to sandwich structure is metal foams made by the melt route...
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sg-ntu-dr.10356-1648632023-02-21T05:15:37Z Experimental study of diamond turned quilt formation in metal foams and using simulated pores Sundharamoorthi, Vinothkumar Neo, Dennis Wee Keong Huang, Rui Yeo, S. H. Shanmugam, Sankaran Subbiah, Sathyan School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Metal Foams Quilting Sandwich structures used to lightweight telescope mirrors result in subsurface pore or cell-induced surface deformation (called quilting), in the unsupported sub-surface regions, during diamond turning of the optical surface. An alternative to sandwich structure is metal foams made by the melt route which have a monolithic porous-nonporous interface naturally formed by a gravitationally induced drainage effect. This work compares effect of naturally formed pores on quilt formation in A357 and Al 6061 metal foams, while also studying the influence of pore size and cutting speed on the quilting effect using simulated controlled diameter single-pore samples made of Al 6061. Results show that the quilt height observed in Al 6061 foam is more than that of A357 foam. Quilting with a height of 0.89 µm appeared on the diamond turned surface of A357 metal foam corresponding to a subsurface pore of diameter 3.87 mm when the thickness of the nonporous region reaches 140 µm. In Al 6061 foam, the quilt with a 0.97 µm peak is observed at 100 µm thickness corresponding to a 2.25 mm pore. The measured quilt heights of metal foams are normalized by their corresponding pore radius, and the effect of material strength on quilt formation is reported. Simulated pore studies in Al6061 show that both pore size and cutting speed significantly influence quilt formation, indicating that optimizing cutting conditions can reduce quilt formation effects. This study facilitates effective adoption of monolithic metal foams for lightweight mirrors. Published version The authors are grateful to Mr. Kris Gopalakrishnan (Infosys co-founder) for the financial support of this research under NTU India connect joint doctoral programme and Department of Science and Technology (DST)—INSPIRE Fellowship (IF150423; ID: A.20020/11/97-IFD). 2023-02-21T02:55:29Z 2023-02-21T02:55:29Z 2022 Journal Article Sundharamoorthi, V., Neo, D. W. K., Huang, R., Yeo, S., Shanmugam, S. & Subbiah, S. (2022). Experimental study of diamond turned quilt formation in metal foams and using simulated pores. Manufacturing Letters, 33, 395-403. https://dx.doi.org/10.1016/j.mfglet.2022.07.052 2213-8463 https://hdl.handle.net/10356/164863 10.1016/j.mfglet.2022.07.052 2-s2.0-85139231618 33 395 403 en Manufacturing Letters © 2022 Society of Manufacturing Engineers (SME). Published by Elsevier Ltd. All rights reserved. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Engineering::Mechanical engineering Metal Foams Quilting Sundharamoorthi, Vinothkumar Neo, Dennis Wee Keong Huang, Rui Yeo, S. H. Shanmugam, Sankaran Subbiah, Sathyan Experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| description |
Sandwich structures used to lightweight telescope mirrors result in subsurface pore or cell-induced surface deformation (called quilting), in the unsupported sub-surface regions, during diamond turning of the optical surface. An alternative to sandwich structure is metal foams made by the melt route which have a monolithic porous-nonporous interface naturally formed by a gravitationally induced drainage effect. This work compares effect of naturally formed pores on quilt formation in A357 and Al 6061 metal foams, while also studying the influence of pore size and cutting speed on the quilting effect using simulated controlled diameter single-pore samples made of Al 6061. Results show that the quilt height observed in Al 6061 foam is more than that of A357 foam. Quilting with a height of 0.89 µm appeared on the diamond turned surface of A357 metal foam corresponding to a subsurface pore of diameter 3.87 mm when the thickness of the nonporous region reaches 140 µm. In Al 6061 foam, the quilt with a 0.97 µm peak is observed at 100 µm thickness corresponding to a 2.25 mm pore. The measured quilt heights of metal foams are normalized by their corresponding pore radius, and the effect of material strength on quilt formation is reported. Simulated pore studies in Al6061 show that both pore size and cutting speed significantly influence quilt formation, indicating that optimizing cutting conditions can reduce quilt formation effects. This study facilitates effective adoption of monolithic metal foams for lightweight mirrors. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Sundharamoorthi, Vinothkumar Neo, Dennis Wee Keong Huang, Rui Yeo, S. H. Shanmugam, Sankaran Subbiah, Sathyan |
| format |
Article |
| author |
Sundharamoorthi, Vinothkumar Neo, Dennis Wee Keong Huang, Rui Yeo, S. H. Shanmugam, Sankaran Subbiah, Sathyan |
| author_sort |
Sundharamoorthi, Vinothkumar |
| title |
Experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| title_short |
Experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| title_full |
Experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| title_fullStr |
Experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| title_full_unstemmed |
Experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| title_sort |
experimental study of diamond turned quilt formation in metal foams and using simulated pores |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164863 |
| _version_ |
1759058823025262592 |