Crystallization behavior of low-cost biphasic hydroxyapatite/β-tricalcium phosphate ceramic at high sintering temperatures derived from high potential calcium waste sources

•Nanocrystal Hydroxyapatite (HA) were synthesized from high potential calcium sources which is ark clam shell via wet chemical precipitate.•The formation of biphasic HA and β-tricalcium phosphate ceramic at high sintering temperatures from 200 to 1400 °C.•Physical characteristics, microstructure and...

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Published in:Results in physics 2019-03, Vol.12, p.638-644
Main Authors: Khiri, Mohammad Zulhasif Ahmad, Matori, Khamirul Amin, Zaid, Mohd Hafiz Mohd, Abdullah, Che Azurahanim Che, Zainuddin, Norhazlin, Alibe, Ibrahim Mustapha, Rahman, Nadia Asyikin Abdul, Wahab, Siti Aisyah Abdul, Azman, Aisyah Zakiah Khirel, Effendy, Nuraidayani
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Language:English
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Biphasic
Crystallization
Hydroxyapatite
Sintering
β-tricalcium phosphate
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container_title Results in physics
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creator Khiri, Mohammad Zulhasif Ahmad
Matori, Khamirul Amin
Zaid, Mohd Hafiz Mohd
Abdullah, Che Azurahanim Che
Zainuddin, Norhazlin
Alibe, Ibrahim Mustapha
Rahman, Nadia Asyikin Abdul
Wahab, Siti Aisyah Abdul
Azman, Aisyah Zakiah Khirel
Effendy, Nuraidayani
description •Nanocrystal Hydroxyapatite (HA) were synthesized from high potential calcium sources which is ark clam shell via wet chemical precipitate.•The formation of biphasic HA and β-tricalcium phosphate ceramic at high sintering temperatures from 200 to 1400 °C.•Physical characteristics, microstructure and mechanical properties were varied according to the temperature applied upon sintered ceramics. This paper reported the formation of biphasic hydroxyapatite, (HA) and β-tricalcium phosphate, (β-TCP) sintered at various sintering temperature from waste material. The phase stability of HA ceramic was investigated by imposing the high sintering temperature in order to study the transformation of the single phase of HA to biphasic HA/β-TCP ceramic. The evolution microstructure of HA and biphasic HA/β-TCP ceramic was studied at various sintering temperature reach up to 1400 °C. The single phase of HA was observed from 200 to 1200 °C and the secondary phase β-TCP appears due to the decomposition of partial HA at 1300–1400 °C. The optimum temperature for a single phase of HA was identified after sintering at 1200 °C to produce HA with high mechanical hardness about 5.11 GPa. This is clearly related to the phase stability and morphology of HA. The particles size of HA as-synthesized were recorded in nano range scale at ∼9 to 20 nm. However, the average particle sizes become larger and compact between ∼0.21 and ∼3.3 μm from 600 to 1200 °C. Thus, the sintering temperature gives an impact on the phase stability, microstructure and microhardness of HA derived from high potential waste sources.
doi_str_mv 10.1016/j.rinp.2018.12.025
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This paper reported the formation of biphasic hydroxyapatite, (HA) and β-tricalcium phosphate, (β-TCP) sintered at various sintering temperature from waste material. The phase stability of HA ceramic was investigated by imposing the high sintering temperature in order to study the transformation of the single phase of HA to biphasic HA/β-TCP ceramic. The evolution microstructure of HA and biphasic HA/β-TCP ceramic was studied at various sintering temperature reach up to 1400 °C. The single phase of HA was observed from 200 to 1200 °C and the secondary phase β-TCP appears due to the decomposition of partial HA at 1300–1400 °C. The optimum temperature for a single phase of HA was identified after sintering at 1200 °C to produce HA with high mechanical hardness about 5.11 GPa. This is clearly related to the phase stability and morphology of HA. The particles size of HA as-synthesized were recorded in nano range scale at ∼9 to 20 nm. However, the average particle sizes become larger and compact between ∼0.21 and ∼3.3 μm from 600 to 1200 °C. 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This paper reported the formation of biphasic hydroxyapatite, (HA) and β-tricalcium phosphate, (β-TCP) sintered at various sintering temperature from waste material. The phase stability of HA ceramic was investigated by imposing the high sintering temperature in order to study the transformation of the single phase of HA to biphasic HA/β-TCP ceramic. The evolution microstructure of HA and biphasic HA/β-TCP ceramic was studied at various sintering temperature reach up to 1400 °C. The single phase of HA was observed from 200 to 1200 °C and the secondary phase β-TCP appears due to the decomposition of partial HA at 1300–1400 °C. The optimum temperature for a single phase of HA was identified after sintering at 1200 °C to produce HA with high mechanical hardness about 5.11 GPa. This is clearly related to the phase stability and morphology of HA. The particles size of HA as-synthesized were recorded in nano range scale at ∼9 to 20 nm. However, the average particle sizes become larger and compact between ∼0.21 and ∼3.3 μm from 600 to 1200 °C. 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This paper reported the formation of biphasic hydroxyapatite, (HA) and β-tricalcium phosphate, (β-TCP) sintered at various sintering temperature from waste material. The phase stability of HA ceramic was investigated by imposing the high sintering temperature in order to study the transformation of the single phase of HA to biphasic HA/β-TCP ceramic. The evolution microstructure of HA and biphasic HA/β-TCP ceramic was studied at various sintering temperature reach up to 1400 °C. The single phase of HA was observed from 200 to 1200 °C and the secondary phase β-TCP appears due to the decomposition of partial HA at 1300–1400 °C. The optimum temperature for a single phase of HA was identified after sintering at 1200 °C to produce HA with high mechanical hardness about 5.11 GPa. This is clearly related to the phase stability and morphology of HA. The particles size of HA as-synthesized were recorded in nano range scale at ∼9 to 20 nm. 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subjects Biphasic
Crystallization
Hydroxyapatite
Sintering
β-tricalcium phosphate
title Crystallization behavior of low-cost biphasic hydroxyapatite/β-tricalcium phosphate ceramic at high sintering temperatures derived from high potential calcium waste sources
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