hydroxlyapatite -glass &ceramic dept(ruet)
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WelcomeWelcome To To
Our Presentation Our Presentation
COURSE NO : GCE 4700COURSE NO : GCE 4700 COURSE NAME : PROJECT AND THESIS COURSE NAME : PROJECT AND THESIS
Submitted BySubmitted ByMohammad Asif IqbalMohammad Asif Iqbal
Roll No. 126009Roll No. 126009Zahurul IslamZahurul Islam
Roll no.126023Roll no.126023
Supervised BySupervised ByDr. Md. Shamimur RahmanDr. Md. Shamimur RahmanProf. Dept. of Glass and CeramicProf. Dept. of Glass and CeramicEngineering (GCEEngineering (GCE)
Department of glass &ceramic engineeringRajshahi university of engineering &technology
(RUET),RAJSHAHI
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INTRODUCTION
Hydroxyapatite is a Calcium phosphate ceramic that is used as a
biomaterial.
Hydroxyapatite [Ca10(PO4)6(OH)2] is a newly introduced bio-ceramic
with composite similar to bone and teeth.
Inorganic phase of our bones is apatite.
It is chemically similar to mineral compound of bones
and tissues in mammals.
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What type of materials we will use
Calcium Nitrate Tetra Hydrate, Ca(NO3)2.4H2O as Calcium source
Phosphoric Pentoxide (P2O5) as Phosphorous source
Ethanol as solvent
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OBJECTIVES
To synthesize Hydroxyapatite powder by sol-gel method .
To characterize the powder of hydroxyapatite.
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Problem statement8
Many of the researchers have synthesized and charectarized hydroxyl apatite powder by different methods and raw materials. None of them have showed the comparison of crystal growth in different sintering temperature.
Work plan7th
semester 8th semester
Full semester
1-2cycles
3cycles
4-8cycles
9-10cycles
11-12cycles
Selection of Thesis title
Study previous working,Literature reviews.
Raw Materials collection
Start Experimental Work.
Characterization time.
Work on preparing Thesis Paper.
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Literature Review. Authors Name Outcomes
Khelendra Agrawal, Gurbhinder Singh, Devendra Puri, Satya Prakash (2011)
Synthesis and Characterization of Hydroxyapatite Powder by Sol-GelMethod for Biomedical Application.
Formation of pure, stable, good crystalline nano sized HA powder at low temperature maximum (750˚C)
Gre´ta Gergel (2010)
Preparation and characterization of hydroxyapatite from eggshell.
Crystalline growth of powder is more efficient than previous .
Agnieszka Sobczak(2009)
Preparation of hydroxyapatite from animal bones
Sintering below 1200°C are expected to favour formation of nano scale composite particles with satisfactory microstructural, thermal stability.
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Literature Review Authors Name outcomes
Envy. Kusrini (2012) Preparation of Hydroxyapatite from Bovine Bone by Combination Methods of Ultrasonic and Spray Drying.
Particles agglomeration become fast and powder formed at comparelly lower sintering temp.
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Causes of choosing sol-gel Causes of choosing sol-gel processprocess
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Low process temperature.Fine sized particles.Rapid agglomeration can be avoided.Efficiency of crystal phase growth is high
compares to other methods.
Moreover ,We can take complete facility from laboratory for this process that’s why we choose the sol-gel method for our thesis experiment.
Conclusion
Hydroxyapatite is an important inorganic biomaterial which has attracted the attention of researchers related to biomaterials field in recent years. Many of the researchers synthesized the powder in different methods. We prefer sol-gel to synthesize it.By changing the parameter and sintering temperature we will modulate the chemical, structural and morphological properties of synthetic HAP.
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References[1]Khelendra Agrawal et al : 2011, Synthesis and Characterization of Hydroxyapatite Powder by Sol-Gel Method for Biomedical Application, Journal of Minerals & Materials Characterization & Engineering, Vol. 10, No.8, pp.727-734. [2]Agnieszka Sobczak et al: 2009, Preparation of hydroxyapatite from animal bones, Acta of Bioengineering and Biomechanics Original Paper Vol. 11, No. 4. [3]Gre´ta Gergelyet al:2010, Preparation and characterization of hydroxyapatite from eggshell; Ceramics International 36 (2010) 803–806. [4]Rozita Ahmad Ramli et al :2011, Synthesis and Characterisation of Pure Nanoporous Hydroxyapatite ; Journal of Physical Science, Vol. 22(1), 25–37, 2011 © Penerbit [5]Eric M. Rivera et al: 1999, Synthesis of hydroxyapatite from eggshells; Materials Letters 41 (1999). 128–134.
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