Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force

This project is concerned with the study of eddy current effects for various materials. There are two types of magnets used i.e. magnetic ferrite (ZnFe2O4 ) and Neodymium magnets (NdFeBN42 ), while the materials used are aluminum , copper and magnesium. When current flows along the magnet, eddy curr...

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Main Authors: Nurul Suhada, Mat Yasin, Zol Bahri, Razali
Other Authors: sue89@yahoo.com
Format: Article
Language:English
Published: Universiti Malaysia Perlis (UniMAP) 2016
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Online Access:http://dspace.unimap.edu.my:80/xmlui/handle/123456789/40741
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spelling my.unimap-407412016-01-08T08:29:17Z Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force Nurul Suhada, Mat Yasin Zol Bahri, Razali sue89@yahoo.com zolbahri@unimap.edu.my Magnet Eddy current Non-ferrous Ansys This project is concerned with the study of eddy current effects for various materials. There are two types of magnets used i.e. magnetic ferrite (ZnFe2O4 ) and Neodymium magnets (NdFeBN42 ), while the materials used are aluminum , copper and magnesium. When current flows along the magnet, eddy current force will be exerted to this material. This force depends on the type of magnet, type of material and the gap between the magnet and the material, and the gap between the two magnets. From the simulation conducted, it is found that at constant magnet to material gap, the eddy current force decreases as the magnet to magnet gap increases. Similarly, at constant magnet to magnet gap, the eddy current force decreases as the magnet to material gap increases. It can be seen that the minimum force was achieved when the magnet to material gap is maximum and the magnet to magnet gap is also maximum. The maximum force was achieved when the magnet to material gap is minimum and the magnet to magnet gap is also minimum. The weakest (minimum) force was between Copper and Neodymium at a magnet to material gap of 20 mm and magnet to magnet gap of 40 mm; the eddy current force was 0.00048 N. The strongest force (maximum) was between Magnesium and Ferrite and 0.42273 N at a magnet to material gap of 3 mm and magnet to magnet gap of 5 mm. 2016-01-08T08:29:17Z 2016-01-08T08:29:17Z 2014 Article http://dspace.unimap.edu.my:80/xmlui/handle/123456789/40741 en Universiti Malaysia Perlis (UniMAP) School of Mechatronic Engineering
institution Universiti Malaysia Perlis
building UniMAP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Perlis
content_source UniMAP Library Digital Repository
url_provider http://dspace.unimap.edu.my/
language English
topic Magnet
Eddy current
Non-ferrous
Ansys
spellingShingle Magnet
Eddy current
Non-ferrous
Ansys
Nurul Suhada, Mat Yasin
Zol Bahri, Razali
Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force
description This project is concerned with the study of eddy current effects for various materials. There are two types of magnets used i.e. magnetic ferrite (ZnFe2O4 ) and Neodymium magnets (NdFeBN42 ), while the materials used are aluminum , copper and magnesium. When current flows along the magnet, eddy current force will be exerted to this material. This force depends on the type of magnet, type of material and the gap between the magnet and the material, and the gap between the two magnets. From the simulation conducted, it is found that at constant magnet to material gap, the eddy current force decreases as the magnet to magnet gap increases. Similarly, at constant magnet to magnet gap, the eddy current force decreases as the magnet to material gap increases. It can be seen that the minimum force was achieved when the magnet to material gap is maximum and the magnet to magnet gap is also maximum. The maximum force was achieved when the magnet to material gap is minimum and the magnet to magnet gap is also minimum. The weakest (minimum) force was between Copper and Neodymium at a magnet to material gap of 20 mm and magnet to magnet gap of 40 mm; the eddy current force was 0.00048 N. The strongest force (maximum) was between Magnesium and Ferrite and 0.42273 N at a magnet to material gap of 3 mm and magnet to magnet gap of 5 mm.
author2 sue89@yahoo.com
author_facet sue89@yahoo.com
Nurul Suhada, Mat Yasin
Zol Bahri, Razali
format Article
author Nurul Suhada, Mat Yasin
Zol Bahri, Razali
author_sort Nurul Suhada, Mat Yasin
title Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force
title_short Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force
title_full Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force
title_fullStr Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force
title_full_unstemmed Study and analysis on the variety of non ferrous materials for the formation of maximum Eddy current force
title_sort study and analysis on the variety of non ferrous materials for the formation of maximum eddy current force
publisher Universiti Malaysia Perlis (UniMAP)
publishDate 2016
url http://dspace.unimap.edu.my:80/xmlui/handle/123456789/40741
_version_ 1643799468166873088
score 13.222552