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From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution

Akermanite is a Si, Ca and Mg contained bio-ceramics that shows bioactive properties in vivo and in vitro conditions. Besides, it also has good controllable mechanical properties and degradation rate. In this study, the formation of akermanite by using natural bio-resource waste is studied. The raw...

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Main Author: Boey, Zhan Hei
Format: Monograph
Language:English
Published: Universiti Sains Malaysia 2018
Subjects:
T Technology
TN Mining Engineering. Metallurgy
Online Access:http://eprints.usm.my/53134/1/From%20Natural%20Bio-Resource%20Waste%20To%20Akermanite%20Bioceramics%20For%20Synthetic%20Bone%20Substitution_Boey%20Zhan%20Hei_B1_2018.pdf
http://eprints.usm.my/53134/
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spelling my.usm.eprints.53134 http://eprints.usm.my/53134/ From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution Boey, Zhan Hei T Technology TN Mining Engineering. Metallurgy Akermanite is a Si, Ca and Mg contained bio-ceramics that shows bioactive properties in vivo and in vitro conditions. Besides, it also has good controllable mechanical properties and degradation rate. In this study, the formation of akermanite by using natural bio-resource waste is studied. The raw materials include cockle shell, rice husk ash and dolomite. The starting raw materials were heat treated and then weighed according to the molecular formula Ca2MgSiO7. The akermanite was prepared using highenergy planetary ball mill, palletized and sintered at 3 different temperature which were 1150°C, 1200°C and 1250°C for 3 hours with heating rate 5°C per minute. Characterizations of samples were carried out by using XRD, SEM, density measurement, shrinkage measurement. Diametral tensile strength test was also performed on the sintered samples. XRD results showed that only akermanite peaks were identify whereas SEM results showed that the amount of porosity decreases and the grain size increases when sintering temperature increases. The density and shrinkage percentage increases with the increase in sintering temperature. The compressive strength increased when the sintering temperature increases. Among all samples, akermanite samples that was sintered in 1250°C showed remarkable compressive strength. Universiti Sains Malaysia 2018-06-01 Monograph NonPeerReviewed application/pdf en http://eprints.usm.my/53134/1/From%20Natural%20Bio-Resource%20Waste%20To%20Akermanite%20Bioceramics%20For%20Synthetic%20Bone%20Substitution_Boey%20Zhan%20Hei_B1_2018.pdf Boey, Zhan Hei (2018) From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution. Project Report. Universiti Sains Malaysia, Pusat Pengajian Kejuruteraan Bahan dan Sumber Mineral. (Submitted)
institution Universiti Sains Malaysia
building Hamzah Sendut Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Sains Malaysia
content_source USM Institutional Repository
url_provider http://eprints.usm.my/
language English
topic T Technology
TN Mining Engineering. Metallurgy
spellingShingle T Technology
TN Mining Engineering. Metallurgy
Boey, Zhan Hei
From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution
description Akermanite is a Si, Ca and Mg contained bio-ceramics that shows bioactive properties in vivo and in vitro conditions. Besides, it also has good controllable mechanical properties and degradation rate. In this study, the formation of akermanite by using natural bio-resource waste is studied. The raw materials include cockle shell, rice husk ash and dolomite. The starting raw materials were heat treated and then weighed according to the molecular formula Ca2MgSiO7. The akermanite was prepared using highenergy planetary ball mill, palletized and sintered at 3 different temperature which were 1150°C, 1200°C and 1250°C for 3 hours with heating rate 5°C per minute. Characterizations of samples were carried out by using XRD, SEM, density measurement, shrinkage measurement. Diametral tensile strength test was also performed on the sintered samples. XRD results showed that only akermanite peaks were identify whereas SEM results showed that the amount of porosity decreases and the grain size increases when sintering temperature increases. The density and shrinkage percentage increases with the increase in sintering temperature. The compressive strength increased when the sintering temperature increases. Among all samples, akermanite samples that was sintered in 1250°C showed remarkable compressive strength.
format Monograph
author Boey, Zhan Hei
author_facet Boey, Zhan Hei
author_sort Boey, Zhan Hei
title From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution
title_short From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution
title_full From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution
title_fullStr From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution
title_full_unstemmed From Natural Bio-Resource Waste To Akermanite Bioceramics For Synthetic Bone Substitution
title_sort from natural bio-resource waste to akermanite bioceramics for synthetic bone substitution
publisher Universiti Sains Malaysia
publishDate 2018
url http://eprints.usm.my/53134/1/From%20Natural%20Bio-Resource%20Waste%20To%20Akermanite%20Bioceramics%20For%20Synthetic%20Bone%20Substitution_Boey%20Zhan%20Hei_B1_2018.pdf
http://eprints.usm.my/53134/
_version_ 1736834808171986944
score 13.15806

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