Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease

The incorporation of micro- and nanosized additives offers a significant potential solution to improve the viscous behavior which can minimize energy consumption and surpass pumpability demonstrated by magnetorheological grease (MRG). The role of the additives utilized, on the other hand, has piqued...

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Published in:Journal of Materials Research and Technology
Main Author: Tarmizi S.M.A.; Nordin N.A.; Mazlan S.A.; Aziz S.A.A.; Ubaidillah U.; Johari M.A.F.; Khairi M.H.A.
Format: Article
Language:English
Published: Elsevier Editora Ltda 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185195812&doi=10.1016%2fj.jmrt.2024.01.219&partnerID=40&md5=b25789b3b8df958d1f09c96361fa999d
id 2-s2.0-85185195812
spelling 2-s2.0-85185195812
Tarmizi S.M.A.; Nordin N.A.; Mazlan S.A.; Aziz S.A.A.; Ubaidillah U.; Johari M.A.F.; Khairi M.H.A.
Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
2024
Journal of Materials Research and Technology
29

10.1016/j.jmrt.2024.01.219
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185195812&doi=10.1016%2fj.jmrt.2024.01.219&partnerID=40&md5=b25789b3b8df958d1f09c96361fa999d
The incorporation of micro- and nanosized additives offers a significant potential solution to improve the viscous behavior which can minimize energy consumption and surpass pumpability demonstrated by magnetorheological grease (MRG). The role of the additives utilized, on the other hand, has piqued the interest of researchers. Therefore, cobalt-ferrite (CoFe2O4) in micro- (M) and nanosized (N) as an additive incorporated in this study to reduce the initial off-state viscosity and simultaneously maintain the resultant shear and yield stress of MRG during on-state conditions. To analyze the viscous behavior effect of MRG types, the samples underwent rheological tests in different parameters. Then, MRG was dried to elucidate the morphological changes. The results showed that micro-sized additives recorded the lowest off-state viscosity with 43.2 % of reduction, followed by nano-CoFe2O4 (26 %) and pure grease. It is due to M has shortened and disentangled the fibrous structures of grease thickener whilst N has filled in the voids among the thickener which contributed to the discharged of base oil thus reduced the viscosity of MRGs. Meanwhile, at on-state conditions, M1 and N1 exhibited enhanced performances of yield and shear stress as compared to pure MRG, O attributed to the improved magnetic attraction among particles in the grease medium. These findings are beneficial for MRG to be employed in MR devices for various purposes. © 2024 The Authors
Elsevier Editora Ltda
22387854
English
Article
All Open Access; Gold Open Access
author Tarmizi S.M.A.; Nordin N.A.; Mazlan S.A.; Aziz S.A.A.; Ubaidillah U.; Johari M.A.F.; Khairi M.H.A.
spellingShingle Tarmizi S.M.A.; Nordin N.A.; Mazlan S.A.; Aziz S.A.A.; Ubaidillah U.; Johari M.A.F.; Khairi M.H.A.
Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
author_facet Tarmizi S.M.A.; Nordin N.A.; Mazlan S.A.; Aziz S.A.A.; Ubaidillah U.; Johari M.A.F.; Khairi M.H.A.
author_sort Tarmizi S.M.A.; Nordin N.A.; Mazlan S.A.; Aziz S.A.A.; Ubaidillah U.; Johari M.A.F.; Khairi M.H.A.
title Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
title_short Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
title_full Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
title_fullStr Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
title_full_unstemmed Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
title_sort Role of micro- and nano-cobalt ferrite as an additive in enhancing the viscous behaviour of magnetorheological grease
publishDate 2024
container_title Journal of Materials Research and Technology
container_volume 29
container_issue
doi_str_mv 10.1016/j.jmrt.2024.01.219
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185195812&doi=10.1016%2fj.jmrt.2024.01.219&partnerID=40&md5=b25789b3b8df958d1f09c96361fa999d
description The incorporation of micro- and nanosized additives offers a significant potential solution to improve the viscous behavior which can minimize energy consumption and surpass pumpability demonstrated by magnetorheological grease (MRG). The role of the additives utilized, on the other hand, has piqued the interest of researchers. Therefore, cobalt-ferrite (CoFe2O4) in micro- (M) and nanosized (N) as an additive incorporated in this study to reduce the initial off-state viscosity and simultaneously maintain the resultant shear and yield stress of MRG during on-state conditions. To analyze the viscous behavior effect of MRG types, the samples underwent rheological tests in different parameters. Then, MRG was dried to elucidate the morphological changes. The results showed that micro-sized additives recorded the lowest off-state viscosity with 43.2 % of reduction, followed by nano-CoFe2O4 (26 %) and pure grease. It is due to M has shortened and disentangled the fibrous structures of grease thickener whilst N has filled in the voids among the thickener which contributed to the discharged of base oil thus reduced the viscosity of MRGs. Meanwhile, at on-state conditions, M1 and N1 exhibited enhanced performances of yield and shear stress as compared to pure MRG, O attributed to the improved magnetic attraction among particles in the grease medium. These findings are beneficial for MRG to be employed in MR devices for various purposes. © 2024 The Authors
publisher Elsevier Editora Ltda
issn 22387854
language English
format Article
accesstype All Open Access; Gold Open Access
record_format scopus
collection Scopus
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