Reinforcing of biologically derived apatite with commercial inert glass

Journal of Thermoplastic Composite Materials

Volumn 22, Issue 4, 2009, Pages 407-419

  Gunduz, O ^a,b   Ahmad, Z ^b   Ekren, N ^a   Agathopoulos, S ^c   Salman, S ^a,d   Oktar, F N ^a,e  

^a MARMARA UNIVERSITY   (Turkey)

^b UNIVERSITY COLLEGE LONDON   (United Kingdom)

^c UNIVERSITY OF IOANNINA   (Greece)

^d Georgia Institute of Technology   (United States)

^e UNIVERSITY OF AVEIRO   (Portugal)

Author keywords

Apatite; Cullet; Inert glass; Mechanical properties; Microstructure.; Sintering

Indexed keywords

CRYSTALLINE STRUCTURE; CRYSTALLOGRAPHIC ANALYSIS; CULLET; FINE POWDERS; HIGH STRENGTH; INERT GLASS; MICRO-STRUCTURAL;

APATITE; BIOACTIVE GLASS; CERAMIC MATERIALS; GLASS CERAMICS; MECHANICAL PROPERTIES; MECHANICAL TESTING; MICROSTRUCTURE; PHOSPHATE MINERALS; REINFORCEMENT;

SINTERING;

EID: 70349644266     PISSN: 08927057     EISSN: 15307980     Source Type: Journal    
DOI: 10.1177/0892705709105974     Document Type: Article

References (40)

1. LeGeros, R.Z., Bonel, G. and Legros, R. (1978). Types of ''H2O'' in Human Enamel and in Precipitated Apatites, Calcified Tissue International, 26 (1). 111-118.
2. LeGeros, R.Z. (1991). Calcium Phosphates in Oral Biology and Medicine. In: Myers H. (ed.), Monographs in Oral Sciences, Vol. 15, p. 108, Karger, Basel.
3. Rocha, J.H.G., Lemos, A.F., Agathopoulos, S., Valério, P., Kannan, S., Oktar, F.N. and Ferreira, J.M.F. (2005). Scaffolds for Bone Restoration from Cuttlefish, Bone, 3 (6). 850-857.
4. Ozyegin, L.S., Oktar, F.N., Goller, G., Kayali, E.S. and Yazici, T. (2004). Plasma-sprayed Bovine Hydroxyapatite Coatings, Material Letters, 58 (21). 2605-2609.
5. Oktar, F.N. (2007). Microstructure and Mechanical Properties of Sintered Enamel Hydroxyapatite, Ceramics International, 33 (7). 1309-1314.
6. Kurkcu, M., Benlidayi, M.E., Ozsoy, S., Ozyegin, L.S., Oktar, F.N. and Kurtoglu, C. (2007). Histomorphometric Evaluation of Implants Coated with Enamel and Dentine Derived Hydroxyapatite, Journal Material Science: Materials in Medicine, 9 (1). 59-65.
7. Erkmen, E.Z., Genc, Y. and Oktar, F.N. (2007). Microstructural and Mechanical Properties of Hydroxyapatite-Zirconia Composites, Journal of the American Ceramic Society, 90 (9). 2885-2892.
8. Gunduz, O., Daglilar, S., Salman, S., Ekren, N., Agathopoulos, S. and Oktar, F.N. (2008). Effect of Yttria-doping on Mechanical Properties of Bovine Hydroxyapatite (BHA), Journal of Composite Materials, 42 (13). 1281-1287.
9. Oktar, F.N., Agathopoulos, S., Ozyegin L.S., Gunduz, G., Demirkol, N., Bozkurt, Y. and Salman S. (2007). Mechanical Properties of Bovine Hydroxyapatite (BHA) Composites Doped with SiO2, MgO, Al2O3, and ZrO2, Journal Material Science: Materials in Medicine, 18 (11). 2137-2143.
10. Goller, G., Oktar, F.N., Agathopoulos, S., Tulyaganov, D.U., Ferreira, J.M.F., Kayali, E.S. and Peker, I. (2006). Effect of Sintering Temperature on Mechanical and Microstructural Properties of Bovine Hydroxyapatite (BHA), Journal of Sol-Gel Science and Technology, 37 (2). 111-115.
11. Oktar, F.N. and Goller, G. (2002). Sintering Effects on Mechanical Properties of Glass-reinforced Hydroxyapatite Composites, Ceramics International, 28 (6). 617-621. (Pubitemid 34772586)
12. Oktar, F.N. (2006). Hydroxyapatite-TiO2 Composites, Materials Letters, 60 (17-18). 2207-2210.
13. Goller, G. and Oktar, F.N. (2002). Sintering Effects on Mechanical Properties of Biologically Derived Dentine Hydroxyapatite, Materials Letters, 56 (3). 142-147. (Pubitemid 35173544)
14. Sevgi, S.L., Oktar, F.N., Goller, G., Kayali, E.S. and Yazici, T. (2004). Plasma-sprayed Bovine Hydroxyapatite Coatings, Materials Letters, 58: 2605-2609.
15. Goller, G., Demirkiran, H., Oktar, F.N. and Demirkesen, E. (2003). Processing and Characterization of Bioglass Reinforced Hydroxyapatite Composites, Ceramics International, 29 (6). 721-724.
16. Salman, S., Oktar, F.N., Gunduz, O., Agathopoulos, S., Öveçoǧlu, M.L. and Kayali, E.S. (2007). Sintering Effect on Mechanical Properties of Composites Made of Bovine Hydroxyapatite (BHA) and Commercial Inert Glass (CIG), Key Engineering Materials, 330-332: 189-192.
17. Lin, F-H., Liu, H-C., Hon, M.-H. and Wang, C-Y. (1997). Preparation and In Vivo Evaluation of a Newly Developed Bioglass Ceramic, Journal of Biomedical Engineering, 1 (5). 481-486.
18. Bogazici University Research Project 95x0042 (1996-1997). Developing Antibiotic Loaded Surface Active Ceramics as a Graft Material for Dentisty, Bogazici University, Istanbul, Turkey.
19. Hench, L.L. and Buscemi, P.J. (1980). Bioglass Coated Metal Substrate, United States Patent, Patent date and number: November 25, 4, 234, 972.
20. Hench, L.L. and Buscemi, P.J. (1979). Method of Bonding Bioglass to Metal, United States Patent, Patent date and number: June 26, 4, 159, 358.
21. Hench, L.L. and Greenspan, D.C. (1978). Bioglass coated Al2O3, United States Patent, Patent date and number: July 25, 4, 103, 002.
22. Bolelli, G., Cannillo, V., Lusvarghi L. and Manfredini, T. (2006). Glass-alumina Composite Coatings by Plasma Spraying. Part I: Microstructural and Mechanical Characterization, Surface and Coatings Technology, 201 (1-2). 458-473. (Pubitemid 44081070)
23. Bolelli, G., Cannillo, V., Lusvarghi, L., Manfredini, T. and Montorsi, M. (2006). Glass-alumina Composite Coatings by Plasma Spraying. Part II: Microstructure-based Modeling of Mechanical Properties, Surface and Coatings Technology, 201 (1-2). 474-486. (Pubitemid 44057727)
24. Cordingley, R., Kohan, L., Ben-Nissan, B. and Pezzotti, G. (2003). Alumina and Zirconia Bioceramics in Orthopaedic Applications, Journal of Australian Ceramic Society, 39 (1). 20-28.
25. Cal, B. (2006). The Influence of Bond-coating on Plasma Sprayed Alumina-titania, Doped with Biologically Derived Hydroxyapatite, on Stainless Steel, MSc. Thesis, Marmara University, Istanbul, Turkey.
26. Tulyaganov, D.U., Fernandes, H., Agathopoulos S. and Ferreira, J.M.F. (2006). Preparation and Characterization of High Compressive Strength Foams from Sheet Glass, Journal of Porous Materials, 13 (2). 133-139.
27. ® Against Supra- and Subgingival Bacteria, Biomaterials, 22 (12). 1683-1687.
28. Merolli, A., Tranquilli Leali, P., Guidi, P.L. and Gabbi, C. (2000). Comparison in In-vivo Response between a Bioactive Glass and a Non-bioactive Glass, Journal Materials Science in Materials Medicine, 11 (4). 219-222.
29. Oktar, F.N., Kesenci, K. and Piskin, E. (1999). Characterization of Processed Tooth Hydroxyapatite for Potential Biomedical Implant Applications, Artificial Cells Blood Substitutes and Immobilization Biotechnology, 27 (4). 367-379.
30. Engin, B., Aydas C. and Demirtas, H. (2006). ESR Dosimetric Properties of Window Glass, Nuclear Instrumentation and Methods in Physics Research B, 243 (1). 149-155.
31. British Standard for compression tests No: 7253. (2001). BS EN. ISO 7253, Test Methods. Determination of Modulus of Elasticity in Compression Available at: www.bsi,global.com/upload/Standards%20&%20Publications/Membership/ UpdateStandards/October06.pdf
32. Santos J.D., Knowles J.C., Reis R. L., Monteiro F.J. and Hastings G.W. (1994). Microstructural Characterization of Glass-reinforced Hydroxyapatite Composites, Biomaterials, 15: 5-10.
33. Goren, S., Gokbayrak, H. and Altintas, S. (2004). Production of Hydroxylapatite from Animal Bone, Key Engineering Materials, 264-268 (1-3). 1949-1952.
34. Gokbayrak, H. (1996). Production of Hydroxyapatite Ceramics, M.Sc. Thesis, Bogazici University, Istanbul.
35. Key, I.A., Pina, S., Agathopoulos, S., Tulyaganov, D.U. and Ferreira, J.M.F. (2005). Interfacial Interactions between Liquid New Biocompatible Model Glasses and Solid Metallic and Ceramic Substrates used in Biomedicine, Key Engineering Materials, 284-286 (1-3). 835-838.
36. Dorozhkin, S.V. (2007). Calcium Orthophosphates, Journal of Materials Science, 42 (4). 1061-1095.
37. Goller, G., Oktar, F.N., Ozyegin, L.S., Kayali, E.S. and Demirkesen, E. (2004). Plasma-sprayed Human Bone-derived Hydroxyapatite Coatings: Effective and Reliable, Materials Letters, 58 (21). 2599-2604.
38. Jones, J. and Ohlberg, S.M. (1991). Flat Glass Compositions with Improved Melting and Tempering Properties, United States Patent, Patent date and number: December 10, 5, 071, 796.
39. Mills, H.N. and Jasinski, J. (1982). Olive-green Glass Compositions, United States Patent, Patent date and number: January 26, 54, 312, 953.
40. Walter Mitarbeit, Lothar Voightlander, Glasslexikon (1959). Ein Handbuch für Handwerk und Industrie, Flaschenglas, Verlag Georg D.W. München.