Startseite Finite Element Modeling of the Flexural Mechanical Response of Polymer-Coated Bioactive Glass Scaffolds Composed of Thermally-Bonded Unidirectional Fibers
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Finite Element Modeling of the Flexural Mechanical Response of Polymer-Coated Bioactive Glass Scaffolds Composed of Thermally-Bonded Unidirectional Fibers

  • Wei Xiao , Mohsen Asle Zaeem , Delbert E. Day und Mohamed N. Rahaman EMAIL logo
Veröffentlicht/Copyright: 30. November 2017
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Biomedical Glasses
Aus der Zeitschrift Biomedical Glasses Band 3 Heft 1

Received: 2017-6-21
Accepted: 2017-11-12
Published Online: 2017-11-30
Published in Print: 2017-11-27

© 2017

Artikel in diesem Heft

  1. Glass-based coatings on biomedical implants: a state-of-the-art review
  2. High Borate Networks as a Platform to Modulate Temporal Release of Therapeutic Metal Ions Gallium and Strontium
  3. BAG S53P4 putty as bone graft substitute – a rabbit model
  4. A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
  5. Review - bioactive glass implants for potential application in structural bone repair
  6. Preparation of CaO-SiO2-CuO bioactive glasses-embedded anodic alumina with improved biological activities
  7. Influence of bioactive glass S53P4 granules and putty on osteomyelitis associated bacteria in vitro
  8. Finite Element Modeling of the Flexural Mechanical Response of Polymer-Coated Bioactive Glass Scaffolds Composed of Thermally-Bonded Unidirectional Fibers
  9. Long term effects of bioactive glass particulates on dental pulp stem cells in vitro
  10. Influence of dissolution products of a novel Ca-enriched silicate bioactive glass-ceramic on VEGF release from bone marrow stromal cells
https://doi.org/10.1515/bglass-2017-0008
Schlagwörter für diesen Artikel
Finite element modeling; bioactive glass composites; mechanical behavior
Creative Commons
BY-NC-ND 4.0

Artikel in diesem Heft

  1. Glass-based coatings on biomedical implants: a state-of-the-art review
  2. High Borate Networks as a Platform to Modulate Temporal Release of Therapeutic Metal Ions Gallium and Strontium
  3. BAG S53P4 putty as bone graft substitute – a rabbit model
  4. A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
  5. Review - bioactive glass implants for potential application in structural bone repair
  6. Preparation of CaO-SiO2-CuO bioactive glasses-embedded anodic alumina with improved biological activities
  7. Influence of bioactive glass S53P4 granules and putty on osteomyelitis associated bacteria in vitro
  8. Finite Element Modeling of the Flexural Mechanical Response of Polymer-Coated Bioactive Glass Scaffolds Composed of Thermally-Bonded Unidirectional Fibers
  9. Long term effects of bioactive glass particulates on dental pulp stem cells in vitro
  10. Influence of dissolution products of a novel Ca-enriched silicate bioactive glass-ceramic on VEGF release from bone marrow stromal cells
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