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W886278051 startingPage "93" @default.
W886278051 abstract "Synthetic calcium phosphate bone graft substitutes are widely recognized for their biocompatibility and resorption characteristics in the treatment of large bone defects. However, due to their inherent brittleness, applications in load-bearing situations always require reinforcement by additional metallic implants. Improved mechanical stability would eliminate the need for non-resorbable metallic implants. In this context a new approach to obtain calcium phosphate scaffolds with improved mechanical stability by texturing the material in specific crystal orientations was evaluated. Texture and reduction of crystal size was achieved by recrystallizing α-TCP blocks into calcium deficient hydroxyapatite (CDHA) under hydrothermal conditions. SEM and XRD analysis revealed the formation of fine CDHA needles (diameter ≈ 0.1-0.5 μm), aligned over several hundreds of micrometers. The obtained microstructures were remarkably similar to the microstructures of the prismatic layer of mollusk shells or enamel, also showing organization at 5 hierarchical structure levels. Brazilian disc tests were used to determine the diametral tensile strength, σdts, and the work-of-fracture, WOF, of the textured materials. Hydrothermal incubation significantly increased σdts and WOF of the ceramic blocks as compared to sintered blocks. These improvements were attributed to the fine and entangled crystal structure obtained after incubation, which reduces the size of strength-determining critical defects and also leads to tortuous crack propagation. Rupture surfaces revealed intergranular tortuous crack paths, which dissipate much more energy than transgranular cracks as observed in the sintered samples. Hence, the refined and textured microstructure achieved through the proposed processing route is an effective way to improve the strength and particularly the toughness of calcium phosphate-based ceramics." @default.
W886278051 created "2016-06-24" @default.
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W886278051 date "2015-10-01" @default.
W886278051 modified "2023-10-01" @default.
W886278051 title "Textured and hierarchically structured calcium phosphate ceramic blocks through hydrothermal treatment" @default.
W886278051 cites W1963902830 @default.
W886278051 cites W1966940202 @default.
W886278051 cites W1967262183 @default.
W886278051 cites W1971339046 @default.
W886278051 cites W1971974144 @default.
W886278051 cites W1973138424 @default.
W886278051 cites W1973424199 @default.
W886278051 cites W1976438274 @default.
W886278051 cites W1986301653 @default.
W886278051 cites W1986428572 @default.
W886278051 cites W1990446563 @default.
W886278051 cites W1992011696 @default.
W886278051 cites W1993592191 @default.
W886278051 cites W1994466065 @default.
W886278051 cites W1995985990 @default.
W886278051 cites W1996411351 @default.
W886278051 cites W1999503973 @default.
W886278051 cites W2003775850 @default.
W886278051 cites W2008840318 @default.
W886278051 cites W2009049221 @default.
W886278051 cites W2016256795 @default.
W886278051 cites W2017171743 @default.
W886278051 cites W2019667750 @default.
W886278051 cites W2019868511 @default.
W886278051 cites W2021652256 @default.
W886278051 cites W2022666521 @default.
W886278051 cites W2024908520 @default.
W886278051 cites W2031622778 @default.
W886278051 cites W2032260996 @default.
W886278051 cites W2032544789 @default.
W886278051 cites W2036177694 @default.
W886278051 cites W2041847177 @default.
W886278051 cites W2044391411 @default.
W886278051 cites W2047155624 @default.
W886278051 cites W2048341336 @default.
W886278051 cites W2050583174 @default.
W886278051 cites W2051531131 @default.
W886278051 cites W2051969767 @default.
W886278051 cites W2053976177 @default.
W886278051 cites W2055248506 @default.
W886278051 cites W2056969718 @default.
W886278051 cites W2065549546 @default.
W886278051 cites W2065697017 @default.
W886278051 cites W2067220566 @default.
W886278051 cites W2068849149 @default.
W886278051 cites W2073489944 @default.
W886278051 cites W2074381040 @default.
W886278051 cites W2079538143 @default.
W886278051 cites W2081264227 @default.
W886278051 cites W2082435917 @default.
W886278051 cites W2090836893 @default.
W886278051 cites W2095361047 @default.
W886278051 cites W2102719653 @default.
W886278051 cites W2113147520 @default.
W886278051 cites W2115746002 @default.
W886278051 cites W2117371631 @default.
W886278051 cites W2133511701 @default.
W886278051 cites W2143025091 @default.
W886278051 cites W2159487708 @default.
W886278051 cites W2159713436 @default.
W886278051 cites W2329685836 @default.
W886278051 cites W2403185189 @default.
W886278051 doi "https://doi.org/10.1016/j.biomaterials.2015.07.026" @default.
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