Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16
Structure and crystallization of new chemically modified bioactive glasses based on the composition of ICIE16 were investigated. Solid-state NMR analysis was used to investigate the glass structure. For crystallization, non-isothermal heat treatment was conducted to calculate the crystallization act...
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2020-09-01
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| Series: | Open Ceramics |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2666539520300274 |
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doaj-443d0d5735594d89b22f6700311398a72020-12-30T04:23:56ZengElsevierOpen Ceramics2666-53952020-09-013100027Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16Firas J. Hmood0Oliver Goerke1Franziska Schmidt2Jan Dirk Epping3Jens Günster4Department of Ceramics Engineering and Building Materials, College of Materials Engineering, University of Babylon, 964, Babylon, Iraq; Corresponding author.Chair of Advanced Ceramic Materials, Department for Materials Science and Technology, Technische Universität Berlin, 10623, Berlin, GermanyDental Materials and Biomaterial Research, Department of Prosthodontics, School of Dentistry, Charité-University Medicine Berlin, 14197, Berlin, GermanyDepartment of Chemistry, School of Mathematics and Natural Sciences, Technische Universität Berlin, 10623, Berlin, GermanyBundesanstalt für Materialforschung und -prüfung (BAM), Unter den Eichen 44-46, 12203, Berlin, GermanyStructure and crystallization of new chemically modified bioactive glasses based on the composition of ICIE16 were investigated. Solid-state NMR analysis was used to investigate the glass structure. For crystallization, non-isothermal heat treatment was conducted to calculate the crystallization activation energy (Ec) using Kissinger method. The structural analysis results indicate that BP1 glass has the most complicated structure among the synthesized glasses. NMR findings tell that phosphate groups are in QP0 and QP1 units while boron is bonded in B[3] and B[4] units. Moreover, BP1 also exhibited high tendency to volume crystallization (n = 2.6; Ec: 390.4 kJ/mol) in comparison to ICIE16 glass which showed mostly surface crystallization (n = 1.4; Ec: 275.7 kJ/mol). The phases that formed after crystallization are Na4Ca4Si6O18, Ca2SiO4 and Ca5(PO2)4 (SiO4)6. The experimental data indicate that BP1 glass has promising features of processing which may ease bone scaffolds (grafts) fabrication with valuable strength.http://www.sciencedirect.com/science/article/pii/S2666539520300274Bioactive glassICIE16Activation energyCrystallizationStruts |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Firas J. Hmood Oliver Goerke Franziska Schmidt Jan Dirk Epping Jens Günster |
| spellingShingle |
Firas J. Hmood Oliver Goerke Franziska Schmidt Jan Dirk Epping Jens Günster Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16 Open Ceramics Bioactive glass ICIE16 Activation energy Crystallization Struts |
| author_facet |
Firas J. Hmood Oliver Goerke Franziska Schmidt Jan Dirk Epping Jens Günster |
| author_sort |
Firas J. Hmood |
| title |
Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16 |
| title_short |
Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16 |
| title_full |
Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16 |
| title_fullStr |
Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16 |
| title_full_unstemmed |
Structure and crystallization characterization of chemically developed bioactive glass based on ICIE16 |
| title_sort |
structure and crystallization characterization of chemically developed bioactive glass based on icie16 |
| publisher |
Elsevier |
| series |
Open Ceramics |
| issn |
2666-5395 |
| publishDate |
2020-09-01 |
| description |
Structure and crystallization of new chemically modified bioactive glasses based on the composition of ICIE16 were investigated. Solid-state NMR analysis was used to investigate the glass structure. For crystallization, non-isothermal heat treatment was conducted to calculate the crystallization activation energy (Ec) using Kissinger method. The structural analysis results indicate that BP1 glass has the most complicated structure among the synthesized glasses. NMR findings tell that phosphate groups are in QP0 and QP1 units while boron is bonded in B[3] and B[4] units. Moreover, BP1 also exhibited high tendency to volume crystallization (n = 2.6; Ec: 390.4 kJ/mol) in comparison to ICIE16 glass which showed mostly surface crystallization (n = 1.4; Ec: 275.7 kJ/mol). The phases that formed after crystallization are Na4Ca4Si6O18, Ca2SiO4 and Ca5(PO2)4 (SiO4)6. The experimental data indicate that BP1 glass has promising features of processing which may ease bone scaffolds (grafts) fabrication with valuable strength. |
| topic |
Bioactive glass ICIE16 Activation energy Crystallization Struts |
| url |
http://www.sciencedirect.com/science/article/pii/S2666539520300274 |
| work_keys_str_mv |
AT firasjhmood structureandcrystallizationcharacterizationofchemicallydevelopedbioactiveglassbasedonicie16 AT olivergoerke structureandcrystallizationcharacterizationofchemicallydevelopedbioactiveglassbasedonicie16 AT franziskaschmidt structureandcrystallizationcharacterizationofchemicallydevelopedbioactiveglassbasedonicie16 AT jandirkepping structureandcrystallizationcharacterizationofchemicallydevelopedbioactiveglassbasedonicie16 AT jensgunster structureandcrystallizationcharacterizationofchemicallydevelopedbioactiveglassbasedonicie16 |
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