Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique

The oxide dispersion strengthened (ODS) ferritic steels are one of the most important in fuel cladding materials for 4th Generation nuclear reactors because of their excellent mechanical properties such as irradiation resistance, swelling resistance, and elevated temperature tensile/compressive stre...

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Autores principales: Dharmalingam Ganesan, Prasad Murali Arun, Salunkhe Sachin
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Publicado: EDP Sciences 2021
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spelling oai:doaj.org-article:8fbcbded3d514676be1d94b47c6af0902021-11-08T15:22:45ZOptimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique1779-628810.1051/smdo/2021029https://doaj.org/article/8fbcbded3d514676be1d94b47c6af0902021-01-01T00:00:00Zhttps://www.ijsmdo.org/articles/smdo/full_html/2021/01/smdo210100/smdo210100.htmlhttps://doaj.org/toc/1779-6288The oxide dispersion strengthened (ODS) ferritic steels are one of the most important in fuel cladding materials for 4th Generation nuclear reactors because of their excellent mechanical properties such as irradiation resistance, swelling resistance, and elevated temperature tensile/compressive strength. Mechanical alloying (MA) is one of the most promising routes for developing nanocrystalline ferritic ODS steel materials. For the production of nanocrystalline ferritic ODS steel powders, the most influencing factor is the milling speed and milling time during the mechanical alloying process. With the improper selection of milling time and speed, the final milled powders become an amorphous structure consisting of high impurity inclusions in the microstructure, and strength was also affected. In order to overcome these drawbacks, the present investigation was taken into account for the selection of appropriate mechanical milling speed and time, which was optimized through Taguchi analysis followed by the MA process. The optimized mechanical milling speed and time of milled powders were characterized through X-Ray Diffraction Analysis (XRD) and Scanning Electron Microscope (SEM).Dharmalingam GanesanPrasad Murali ArunSalunkhe SachinEDP Sciencesarticlemechanical alloyingmechanical milling processtaguchi analysisxrdsemIndustrial engineering. Management engineeringT55.4-60.8Industrial directoriesT11.95-12.5ENInternational Journal for Simulation and Multidisciplinary Design Optimization, Vol 12, p 25 (2021)
institution DOAJ
collection DOAJ
language EN
topic mechanical alloying
mechanical milling process
taguchi analysis
xrd
sem
Industrial engineering. Management engineering
T55.4-60.8
Industrial directories
T11.95-12.5
spellingShingle mechanical alloying
mechanical milling process
taguchi analysis
xrd
sem
Industrial engineering. Management engineering
T55.4-60.8
Industrial directories
T11.95-12.5
Dharmalingam Ganesan
Prasad Murali Arun
Salunkhe Sachin
Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique
description The oxide dispersion strengthened (ODS) ferritic steels are one of the most important in fuel cladding materials for 4th Generation nuclear reactors because of their excellent mechanical properties such as irradiation resistance, swelling resistance, and elevated temperature tensile/compressive strength. Mechanical alloying (MA) is one of the most promising routes for developing nanocrystalline ferritic ODS steel materials. For the production of nanocrystalline ferritic ODS steel powders, the most influencing factor is the milling speed and milling time during the mechanical alloying process. With the improper selection of milling time and speed, the final milled powders become an amorphous structure consisting of high impurity inclusions in the microstructure, and strength was also affected. In order to overcome these drawbacks, the present investigation was taken into account for the selection of appropriate mechanical milling speed and time, which was optimized through Taguchi analysis followed by the MA process. The optimized mechanical milling speed and time of milled powders were characterized through X-Ray Diffraction Analysis (XRD) and Scanning Electron Microscope (SEM).
format article
author Dharmalingam Ganesan
Prasad Murali Arun
Salunkhe Sachin
author_facet Dharmalingam Ganesan
Prasad Murali Arun
Salunkhe Sachin
author_sort Dharmalingam Ganesan
title Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique
title_short Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique
title_full Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique
title_fullStr Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique
title_full_unstemmed Optimization of milling speed and time in mechanical alloying of ferritic ODS steel through taguchi technique
title_sort optimization of milling speed and time in mechanical alloying of ferritic ods steel through taguchi technique
publisher EDP Sciences
publishDate 2021
url https://doaj.org/article/8fbcbded3d514676be1d94b47c6af090
work_keys_str_mv AT dharmalingamganesan optimizationofmillingspeedandtimeinmechanicalalloyingofferriticodssteelthroughtaguchitechnique
AT prasadmuraliarun optimizationofmillingspeedandtimeinmechanicalalloyingofferriticodssteelthroughtaguchitechnique
AT salunkhesachin optimizationofmillingspeedandtimeinmechanicalalloyingofferriticodssteelthroughtaguchitechnique
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