The bending and dynamic mechanical properties of cortical bone : the effects of sodium fluoride and the relationship to physical properties /
5111m by 2n1m, were prepared from equine third
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| Format: | Thesis eBook |
| Language: | English |
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[Place of publication not identified] :
[publisher not identified] ;
1998.
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| Subjects: | |
| Online Access: | Link to OAKTrust copy |
| Summary: | 5111m by 2n1m, were prepared from equine third absorbed to failure, and percent of energy absorbed also increased the tan 8, loss modulus, energy and ash content were then determined. The ion bending moduli, the yield and ultimate strengths, and bending tests. Specimens of cortical bone, 56mm by between other static and dynamic properties was weak. biokinetics, a field which seeks to create advanced Bone is a complex organic composite material. The graphics. bone is significant both to medicine and to the bones were soaked in a non-ionic detergent for 24 consistent with rebinding in a fiber-matrix composite. consistently lower. The modulus [], correlation defending on equine cortical bone was investigated detergent-ion protocol of Walsh et a1., the equine equine specimens were tested in three-point bending fluoride solution for 12 days. The control group was For the human specimens, the elastic modulus was have developed a detergent-ion protocol that hours. The treatment group was soaked in a 2 M sodium IDMAI in the bending mode and quasi-static three-point interface between the mineral and organic phases of interferes with the bonding between the organic and is also important to biokinetics. Walsh et al. (1991) metacarpal bones and human femurs. Following the mineral constituents of bone. The elect of this moderately correlated to wet density and porosity. The modulus was also correlated to wet density. physical properties of bone as well as the post-yield. The change in properties was generally ratio of yield to ultimate strength. This protocol relationship between the mechanical properties and relationship between the static and dynamic properties soaked in 0. 145 M sodium chloride for 12 days. The storage modulus and tan [] were monitored with DMA in synthetic materials by copying natural ones. The the bending mode every other day. After treatment, the The dynamic storage modulus correlated well to the then three-point bending. The wet density, porosity, three-point bending [] but the dynamic modulus was treatment reduced the dynamic storage and three-point Twenty human bone specimens were tested in DMA and using dynamic mechanical analysis with a span of 38 mm and a strain rate of 1 mnl/min. |
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| Item Description: | "Major subject: Mechanical Engineering". Vita. |
| Physical Description: | x, 80 leaves : illustrations ; 28 cm. Also available online. |
| Bibliography: | Includes bibliographical references (leaves 68-71). |