Sintering and mechanical properties of tricalcium phosphate–fluorapatite composites

Bouslama, Nadhem; Ayed, Foued Ben; Bouaziz, Jamel

doi:10.1016/j.ceramint.2008.10.030

Cited by 39 publications

(35 citation statements)

References 19 publications

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“…To slow down the rate of biodegradation, biphasic calcium phosphate (BCP) ceramics (i.e. composite ceramics that consist of mixtures of both the HA and b-TCP phase) have been proposed [18,19]. HA is the main mineral component of bone and teeth.…”

Section: Tricalcium Phosphate [Ca 3 (Po 4 ) 2 ]mentioning

confidence: 99%

Ion implantation of titanium based biomaterials

Rautray

Narayanan

Kim

2011

Progress in Materials Science

270

136

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Section: Tricalcium Phosphate [Ca 3 (Po 4 ) 2 ]mentioning

confidence: 99%

Ion implantation of titanium based biomaterials

Rautray

Narayanan

Kim

2011

Progress in Materials Science

270

136

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“…Hydroxyapatite (Hap) and β tricalcium phosphate (β-TCP) which are the most frequently used bioceramics due to their biocompatibility and bioactivity can be designed under an appropriate shape and size [1][2][3]. These bioceramics have attracted considerable interest for orthopedic and dental functions [1].…”

Section: Introductionmentioning

confidence: 99%

Determination of elastic modulus, tensile strength and fracture toughness of bioceramics using the flattened Brazilian disc specimen: analytical and numerical results

Elghazel

Taktak

Bouaziz

2015

Ceramics International

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“…Biomaterials based on hydroxyapatite (HA, Ca 10 (PO 4 ) 6 )(OH) 2 ) or β-tricalcium phosphate (TCP: β-Ca 3 (PO 4 ) 2 ) have attracted considerable interest for orthopedic and dental applications, thanks to their noticeable chemical resemblance to the mineral component of the bone which provides intrinsic biocompatibility and osteointegration ability [15,16].…”

Section: Application Of Titanium Dioxidementioning

confidence: 99%

Composite Calcium Phosphate/Titania Scaffolds in Bone Tissue Engineering

Dapporto¹,

Tampieri²,

Sprio³

2017

Application of Titanium Dioxide

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Titanium and its alloys have been extensively used as implantation materials due to their favorable properties such as lower modulus, good tensile strength, excellent biocompatibility, and enhanced corrosion resistance. However, their intrinsic bioinertness generally prevents a direct bond with the bone on the surface especially at an early stage of implantation. In recent years, bioactive scaffolds for bone regeneration are progressively replacing bioinert prostheses in orthopedic, maxillofacial, and neurosurgery fields. Given the need of enhanced mechanical strength, several combinations of bioactive and reinforcing phases have been studied, but still no convincing solutions have been found so far. In this context, titanium oxides are light and high-resistance bioactive materials widely employed in dental and bone application due to their capacity of forming strong bonds with bone tissue via the formation of a tightly bound apatite layer on their surface. The addition of titania particles to hydroxyapatite has attracted considerable attention based on the assumption that resulting materials can enhance osteoblast adhesion and promote cell growth while also providing high strength and fracture toughness in the final composite material, thus being adequate for load-bearing applications.

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Sintering and mechanical properties of tricalcium phosphate–fluorapatite composites

Cited by 39 publications

References 19 publications

Ion implantation of titanium based biomaterials

Ion implantation of titanium based biomaterials

Determination of elastic modulus, tensile strength and fracture toughness of bioceramics using the flattened Brazilian disc specimen: analytical and numerical results

Composite Calcium Phosphate/Titania Scaffolds in Bone Tissue Engineering

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