New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability

Ahmed Bachar; Assia Mabrouk; Cyrille Mercier; Claudine Follet; Franck Bouchart; Arnaud Tricoteaux; Stuart Hampshire

doi:10.4018/979-8-3693-7505-1.ch004

New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability

Ahmed Bachar
, Assia Mabrouk
, Cyrille Mercier
, Claudine Follet
, Franck Bouchart
, Arnaud Tricoteaux
, Stuart Hampshire

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

The limited strength of bioglasses has confined their application to non- load- bearing contexts, thus necessitating enhancements in their mechanical properties. A viable approach to surmount this hurdle involves integrating nitrogen into the silicate network of the glass. This outlines the effect of nitrogen addition in bioglasses of the system SiO2- Na2O- CaO. The purpose is to determine the effects of nitrogen addition on the physical and mechanical properties and the structure of oxynitride bioglasses based on the system Na2O- CaO- SiO2- Si3N4. Properties were all observed to increase linearly with nitrogen content. These increases are consistent with N in the glass structure in 3‐fold coordination with silicon and extra cross‐linking of the glass network. These increases are consistent with the incorporation of N into the glass structure in three- fold coordination with silicon with result in extra cross- linking of the glass network.

Original language	English
Title of host publication	Innovative Materials for Industrial Applications
Subtitle of host publication	Synthesis, Characterization and Evaluation
Publisher	CRC Press
Pages	97-133
Number of pages	37
ISBN (Electronic)	9798369375075
ISBN (Print)	9798369375051
DOIs	https://doi.org/10.4018/979-8-3693-7505-1.ch004
Publication status	Published - 1 Jan 2025

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Bachar, A., Mabrouk, A., Mercier, C., Follet, C., Bouchart, F., Tricoteaux, A., & Hampshire, S. (2025). New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability. In Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation (pp. 97-133). CRC Press. https://doi.org/10.4018/979-8-3693-7505-1.ch004

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title = "New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability",

abstract = "The limited strength of bioglasses has confined their application to non- load- bearing contexts, thus necessitating enhancements in their mechanical properties. A viable approach to surmount this hurdle involves integrating nitrogen into the silicate network of the glass. This outlines the effect of nitrogen addition in bioglasses of the system SiO2- Na2O- CaO. The purpose is to determine the effects of nitrogen addition on the physical and mechanical properties and the structure of oxynitride bioglasses based on the system Na2O- CaO- SiO2- Si3N4. Properties were all observed to increase linearly with nitrogen content. These increases are consistent with N in the glass structure in 3‐fold coordination with silicon and extra cross‐linking of the glass network. These increases are consistent with the incorporation of N into the glass structure in three- fold coordination with silicon with result in extra cross- linking of the glass network.",

author = "Ahmed Bachar and Assia Mabrouk and Cyrille Mercier and Claudine Follet and Franck Bouchart and Arnaud Tricoteaux and Stuart Hampshire",

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Bachar, A, Mabrouk, A, Mercier, C, Follet, C, Bouchart, F, Tricoteaux, A & Hampshire, S 2025, New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability. in Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation. CRC Press, pp. 97-133. https://doi.org/10.4018/979-8-3693-7505-1.ch004

New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability. / Bachar, Ahmed; Mabrouk, Assia; Mercier, Cyrille et al.
Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation. CRC Press, 2025. p. 97-133.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - New Generation of Glass Materials for Biomedical Applications

T2 - Properties, Structure, Bioactivity, and Viability

AU - Bachar, Ahmed

AU - Mabrouk, Assia

AU - Mercier, Cyrille

AU - Follet, Claudine

AU - Bouchart, Franck

AU - Tricoteaux, Arnaud

AU - Hampshire, Stuart

PY - 2025/1/1

Y1 - 2025/1/1

N2 - The limited strength of bioglasses has confined their application to non- load- bearing contexts, thus necessitating enhancements in their mechanical properties. A viable approach to surmount this hurdle involves integrating nitrogen into the silicate network of the glass. This outlines the effect of nitrogen addition in bioglasses of the system SiO2- Na2O- CaO. The purpose is to determine the effects of nitrogen addition on the physical and mechanical properties and the structure of oxynitride bioglasses based on the system Na2O- CaO- SiO2- Si3N4. Properties were all observed to increase linearly with nitrogen content. These increases are consistent with N in the glass structure in 3‐fold coordination with silicon and extra cross‐linking of the glass network. These increases are consistent with the incorporation of N into the glass structure in three- fold coordination with silicon with result in extra cross- linking of the glass network.

AB - The limited strength of bioglasses has confined their application to non- load- bearing contexts, thus necessitating enhancements in their mechanical properties. A viable approach to surmount this hurdle involves integrating nitrogen into the silicate network of the glass. This outlines the effect of nitrogen addition in bioglasses of the system SiO2- Na2O- CaO. The purpose is to determine the effects of nitrogen addition on the physical and mechanical properties and the structure of oxynitride bioglasses based on the system Na2O- CaO- SiO2- Si3N4. Properties were all observed to increase linearly with nitrogen content. These increases are consistent with N in the glass structure in 3‐fold coordination with silicon and extra cross‐linking of the glass network. These increases are consistent with the incorporation of N into the glass structure in three- fold coordination with silicon with result in extra cross- linking of the glass network.

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SN - 9798369375051

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BT - Innovative Materials for Industrial Applications

PB - CRC Press

ER -

New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability

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