Apatite-Forming Ability and Mechanical Behavior of PTMO-Modified CaO-TiO2 Hybrids Prepared by Sol-Gel Processing
Triethoxysilane end-capped poly (tetramethylene oxide) (Si-PTMO)-modified CaO-TiO2 hybrids were prepared by hydrolysis and polycondensation of Si-PTMO, tetraisopropyltitanate (TiPT) and calcium nitrate. Under constant weight ratio of (Si-PTMO)/(TiPT) = 2/3, the molar ratio of (Ca(NO3)2)/TiPT) was va...
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| Veröffentlicht in: | Key Engineering Materials 2002-01, Vol.218-220, p.117-122 |
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| creator | Chen, Qi Masakazu, Kawashita Nakamura, Takashi Kokubo, Tadashi Fuke, K. Miyata, Noboru |
| description | Triethoxysilane end-capped poly (tetramethylene oxide) (Si-PTMO)-modified CaO-TiO2 hybrids were prepared by hydrolysis and polycondensation of Si-PTMO, tetraisopropyltitanate (TiPT) and calcium nitrate. Under constant weight ratio of (Si-PTMO)/(TiPT) = 2/3, the molar ratio of (Ca(NO3)2)/TiPT) was varied from 0 to 0.15. The apatite-forming ability was evaluated in a simulated body fluid (SBF), and the mechanical properties including Young's modulus, strength and strain at failure were measured in air by three-point bending. The apatite-forming ability in SBF increased significantly with increasing CaO content, although the bending strength and Young's modulus decreased. The hybrid samples with (Ca(NO3)2) /(TiPT) = 0.10 and 0.15 in mol, respectively, formed apatite on their surface within only one day. The failure strains were found to be in the range of about 13 to 25%. Thus, hybrids showing both high apatite-forming ability and high capability for deformation were successfully synthesised. These hybrids may be useful as novel bioactive bone-repair materials. 11 refs. |
| doi_str_mv | 10.4028/www.scientific.net/KEM.218-220.117 |
| format | Article |
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Under constant weight ratio of (Si-PTMO)/(TiPT) = 2/3, the molar ratio of (Ca(NO3)2)/TiPT) was varied from 0 to 0.15. The apatite-forming ability was evaluated in a simulated body fluid (SBF), and the mechanical properties including Young's modulus, strength and strain at failure were measured in air by three-point bending. The apatite-forming ability in SBF increased significantly with increasing CaO content, although the bending strength and Young's modulus decreased. The hybrid samples with (Ca(NO3)2) /(TiPT) = 0.10 and 0.15 in mol, respectively, formed apatite on their surface within only one day. The failure strains were found to be in the range of about 13 to 25%. Thus, hybrids showing both high apatite-forming ability and high capability for deformation were successfully synthesised. 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Under constant weight ratio of (Si-PTMO)/(TiPT) = 2/3, the molar ratio of (Ca(NO3)2)/TiPT) was varied from 0 to 0.15. The apatite-forming ability was evaluated in a simulated body fluid (SBF), and the mechanical properties including Young's modulus, strength and strain at failure were measured in air by three-point bending. The apatite-forming ability in SBF increased significantly with increasing CaO content, although the bending strength and Young's modulus decreased. The hybrid samples with (Ca(NO3)2) /(TiPT) = 0.10 and 0.15 in mol, respectively, formed apatite on their surface within only one day. The failure strains were found to be in the range of about 13 to 25%. Thus, hybrids showing both high apatite-forming ability and high capability for deformation were successfully synthesised. These hybrids may be useful as novel bioactive bone-repair materials. 11 refs.</abstract><pub>Trans Tech Publications Ltd</pub><doi>10.4028/www.scientific.net/KEM.218-220.117</doi><tpages>6</tpages></addata></record> |
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| title | Apatite-Forming Ability and Mechanical Behavior of PTMO-Modified CaO-TiO2 Hybrids Prepared by Sol-Gel Processing |
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