Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)

This study describes the formulation of multipurpose grease using red gypsum from titanium dioxide manufacturing wastes. Greases produced with different amount of fume silica (FS) and red gypsum in its compositions. The effect of red gypsum’s and fumed silica’s concentrations on the formulated greas...

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Main Author: Arumugam, Nithiya
Format: Undergraduates Project Papers
Language:English
Published: 2009
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Online Access:http://umpir.ump.edu.my/id/eprint/1144/2/Nithiya_Arumugam.pdf
http://umpir.ump.edu.my/id/eprint/1144/
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Institution: Universiti Malaysia Pahang
Language: English
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spelling my.ump.umpir.11442015-03-03T07:49:00Z http://umpir.ump.edu.my/id/eprint/1144/ Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum) Arumugam, Nithiya QD Chemistry This study describes the formulation of multipurpose grease using red gypsum from titanium dioxide manufacturing wastes. Greases produced with different amount of fume silica (FS) and red gypsum in its compositions. The effect of red gypsum’s and fumed silica’s concentrations on the formulated greases has been studied. The grease mixture is formulated using silicone oil as base oil, fumed silica and red gypsum as thickener, molybdenum disulphide as additive and iron octoate as anti-oxidant agent. Amount of fumed silica involves 2-20% wt (2% wt, 7% wt, 16% wt and 20% wt). All the fume silica proportions covered (70% gypsum, 30% FS), (60% gypsum, 40% FS) and (50% gypsum, 50% FS). The testing (penetration test, type of thickener, dropping point test, and amount of oil separated) have been done on the formulated greases to determine the properties. It was discovered that formulated grease has no dropping point until 260 o C which proves that the greases has stable structure at higher temperature. All the formulated greases proved to be composed of non-melt thickener type. As the amount of fumed silica and red gypsum increase oil separation decreases and the consistency of the greases increases. The penetration also significantly decreases as fumed silica addition increases. This is due to the larger strength and small size of fumed silica. The larger strength of fumed silica was thought to be due to the structure being knit together by means of primary valence bonds. It can be concluded that the formulated grease is multi purpose grease. Higher the amount of fumed silica and gypsum (thickener), better the grease’s quality. Therefore, the formulated greases has high potential to be used in wide range of industries such as the cars, ships, aircrafts and most of the industries that deals with heavy duty equipments. 2009-04 Undergraduates Project Papers NonPeerReviewed application/pdf en http://umpir.ump.edu.my/id/eprint/1144/2/Nithiya_Arumugam.pdf Arumugam, Nithiya (2009) Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum). Faculty of Chemical and Natural Resources Engineering, Universiti Malaysia Pahang .
institution Universiti Malaysia Pahang
building UMP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Pahang
content_source UMP Institutional Repository
url_provider http://umpir.ump.edu.my/
language English
topic QD Chemistry
spellingShingle QD Chemistry
Arumugam, Nithiya
Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
description This study describes the formulation of multipurpose grease using red gypsum from titanium dioxide manufacturing wastes. Greases produced with different amount of fume silica (FS) and red gypsum in its compositions. The effect of red gypsum’s and fumed silica’s concentrations on the formulated greases has been studied. The grease mixture is formulated using silicone oil as base oil, fumed silica and red gypsum as thickener, molybdenum disulphide as additive and iron octoate as anti-oxidant agent. Amount of fumed silica involves 2-20% wt (2% wt, 7% wt, 16% wt and 20% wt). All the fume silica proportions covered (70% gypsum, 30% FS), (60% gypsum, 40% FS) and (50% gypsum, 50% FS). The testing (penetration test, type of thickener, dropping point test, and amount of oil separated) have been done on the formulated greases to determine the properties. It was discovered that formulated grease has no dropping point until 260 o C which proves that the greases has stable structure at higher temperature. All the formulated greases proved to be composed of non-melt thickener type. As the amount of fumed silica and red gypsum increase oil separation decreases and the consistency of the greases increases. The penetration also significantly decreases as fumed silica addition increases. This is due to the larger strength and small size of fumed silica. The larger strength of fumed silica was thought to be due to the structure being knit together by means of primary valence bonds. It can be concluded that the formulated grease is multi purpose grease. Higher the amount of fumed silica and gypsum (thickener), better the grease’s quality. Therefore, the formulated greases has high potential to be used in wide range of industries such as the cars, ships, aircrafts and most of the industries that deals with heavy duty equipments.
format Undergraduates Project Papers
author Arumugam, Nithiya
author_facet Arumugam, Nithiya
author_sort Arumugam, Nithiya
title Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
title_short Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
title_full Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
title_fullStr Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
title_full_unstemmed Formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
title_sort formulation of multipurpose grease from titanium dioxide manufacturing waste (red gypsum)
publishDate 2009
url http://umpir.ump.edu.my/id/eprint/1144/2/Nithiya_Arumugam.pdf
http://umpir.ump.edu.my/id/eprint/1144/
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