A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique
The current work is conducting an experimental investigation into the effect of those technical parameters, called nanomaterial, bath temperature and plating time on the micro-hardness and corrosion rate of electroless plated low carbon steel undergoing electroless deposition operation. It was used...
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Format: | Article |
Language: | English |
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Unviversity of Technology- Iraq
2021-06-01
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Series: | Engineering and Technology Journal |
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Online Access: | https://etj.uotechnology.edu.iq/article_169204_eff186df5b1d7e329221ed3efebb158c.pdf |
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author | Muroog Shinyar Abbas Hussein Laith Abbas |
author_facet | Muroog Shinyar Abbas Hussein Laith Abbas |
author_sort | Muroog Shinyar |
collection | DOAJ |
description | The current work is conducting an experimental investigation into the effect of those technical parameters, called nanomaterial, bath temperature and plating time on the micro-hardness and corrosion rate of electroless plated low carbon steel undergoing electroless deposition operation. It was used to prepare (Ni-P/ Nano TiO2), (Ni-P/ Nano Al2O3) and (Ni -P/ Nano SiO2) alloys in this research. The Taguchi design is used to describe the variations located within the corrosion and mechanical properties. To achieve a comprehensive study, a Taguchi-based design was used to account for all applicable combinations of factors. Experimental models had been advanced that linking the response and method parameters to the results of those experiments. Validation of these models is done using analysis of variance (ANOVA). The desirability function is used to simultaneously optimize all the response. Finally, the optimum combination of method parameters resulting (bath temperature=90 oC, plating time =120 min. and Nanomaterial=(Al2O3)), nanomaterial was observed to be the major process parameter on the responses of the electroless-plated low carbon steel with an impact ratio of (47%) based on the (ANOVA) results. |
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format | Article |
id | doaj.art-64ace7ab225f48439712af231f0723b8 |
institution | Directory Open Access Journal |
issn | 1681-6900 2412-0758 |
language | English |
last_indexed | 2024-03-08T08:54:25Z |
publishDate | 2021-06-01 |
publisher | Unviversity of Technology- Iraq |
record_format | Article |
series | Engineering and Technology Journal |
spelling | doaj.art-64ace7ab225f48439712af231f0723b82024-02-01T07:18:07ZengUnviversity of Technology- IraqEngineering and Technology Journal1681-69002412-07582021-06-0139694695510.30684/etj.v39i6.2009169204A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless TechniqueMuroog Shinyar0Abbas Hussein1Laith Abbas2Materials Engineering Department, University of Technology - IraqNanotechnology and Advanced Materials Research Center, University of Technology - IraqMaterials Engineering Department, University of Technology - IraqThe current work is conducting an experimental investigation into the effect of those technical parameters, called nanomaterial, bath temperature and plating time on the micro-hardness and corrosion rate of electroless plated low carbon steel undergoing electroless deposition operation. It was used to prepare (Ni-P/ Nano TiO2), (Ni-P/ Nano Al2O3) and (Ni -P/ Nano SiO2) alloys in this research. The Taguchi design is used to describe the variations located within the corrosion and mechanical properties. To achieve a comprehensive study, a Taguchi-based design was used to account for all applicable combinations of factors. Experimental models had been advanced that linking the response and method parameters to the results of those experiments. Validation of these models is done using analysis of variance (ANOVA). The desirability function is used to simultaneously optimize all the response. Finally, the optimum combination of method parameters resulting (bath temperature=90 oC, plating time =120 min. and Nanomaterial=(Al2O3)), nanomaterial was observed to be the major process parameter on the responses of the electroless-plated low carbon steel with an impact ratio of (47%) based on the (ANOVA) results.https://etj.uotechnology.edu.iq/article_169204_eff186df5b1d7e329221ed3efebb158c.pdfelectroless depositioncorrosion resistancenanocompositecoating & taguchi method |
spellingShingle | Muroog Shinyar Abbas Hussein Laith Abbas A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique Engineering and Technology Journal electroless deposition corrosion resistance nanocomposite coating & taguchi method |
title | A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique |
title_full | A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique |
title_fullStr | A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique |
title_full_unstemmed | A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique |
title_short | A Desirability Function for Evaluation of Corrosion Behavior for Nanocoated- Steel Using Electroless Technique |
title_sort | desirability function for evaluation of corrosion behavior for nanocoated steel using electroless technique |
topic | electroless deposition corrosion resistance nanocomposite coating & taguchi method |
url | https://etj.uotechnology.edu.iq/article_169204_eff186df5b1d7e329221ed3efebb158c.pdf |
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