Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis

Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis

10.3390/ma13225156

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Bibliographic Details
Main Authors: Singh, S., Prakash, C., Pramanik, A., Basak, A., Shabadi, R., Królczyk, G., Bogdan-Chudy, M., Babbar, A.
Other Authors: MECHANICAL ENGINEERING
Format: Article
Published: MDPI AG 2021
Subjects:
Magnetic abrasive finishing
Material removal
Nano-finishing
Optimization
Parametric appraisal
Surface roughness
?-phase TNTZ alloy
Online Access:https://scholarbank.nus.edu.sg/handle/10635/199678
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1996782024-04-04T02:08:16Z Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis Singh, S. Prakash, C. Pramanik, A. Basak, A. Shabadi, R. Królczyk, G. Bogdan-Chudy, M. Babbar, A. MECHANICAL ENGINEERING Magnetic abrasive finishing Material removal Nano-finishing Optimization Parametric appraisal Surface roughness ?-phase TNTZ alloy 10.3390/ma13225156 Materials 13 22 1-15 2021-08-27T02:34:44Z 2021-08-27T02:34:44Z 2020 Article Singh, S., Prakash, C., Pramanik, A., Basak, A., Shabadi, R., Królczyk, G., Bogdan-Chudy, M., Babbar, A. (2020). Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis. Materials 13 (22) : 1-15. ScholarBank@NUS Repository. https://doi.org/10.3390/ma13225156 1996-1944 https://scholarbank.nus.edu.sg/handle/10635/199678 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ MDPI AG Scopus OA2020
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Magnetic abrasive finishing
Material removal
Nano-finishing
Optimization
Parametric appraisal
Surface roughness
?-phase TNTZ alloy
spellingShingle Magnetic abrasive finishing
Material removal
Nano-finishing
Optimization
Parametric appraisal
Surface roughness
?-phase TNTZ alloy
Singh, S.
Prakash, C.
Pramanik, A.
Basak, A.
Shabadi, R.
Królczyk, G.
Bogdan-Chudy, M.
Babbar, A.
Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis
description 10.3390/ma13225156
author2 MECHANICAL ENGINEERING
author_facet MECHANICAL ENGINEERING
Singh, S.
Prakash, C.
Pramanik, A.
Basak, A.
Shabadi, R.
Królczyk, G.
Bogdan-Chudy, M.
Babbar, A.
format Article
author Singh, S.
Prakash, C.
Pramanik, A.
Basak, A.
Shabadi, R.
Królczyk, G.
Bogdan-Chudy, M.
Babbar, A.
author_sort Singh, S.
title Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis
title_short Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis
title_full Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis
title_fullStr Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis
title_full_unstemmed Magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: Parametric appraisal and corrosion analysis
title_sort magneto-rheological fluid assisted abrasive nanofinishing of ?-phase ti-nb-ta-zr alloy: parametric appraisal and corrosion analysis
publisher MDPI AG
publishDate 2021
url https://scholarbank.nus.edu.sg/handle/10635/199678
_version_ 1800914998539583488

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