| 皮持骨在拉伸型,剪切型和撕裂型加载条件下的断裂韧性——纵向断裂… |
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| 引用本文: | 冯祖德. 皮持骨在拉伸型,剪切型和撕裂型加载条件下的断裂韧性——纵向断裂…[J]. 生物医学工程学杂志, 1997, 14(3): 199-204 |
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| 作者姓名: | 冯祖德 |
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| 摘 要: | 对以质骨在拉伸、剪切和撕裂型载荷下的裂纹启裂韧性进行了研究。总数为130个紧凑拉式样,紧凑剪切试样和三腿型试样分别用于测量骨的拉伸型、剪切型和撕裂型启裂韧性。多试样柔度法用来测定当a/W=0.55(1,裂纹长度,W,试样宽度)时的临界能量释放率。临界应力强度因子由a/W=0.55的试样在试验中得到的临界载荷来计算。为了考察骨力学 各是性对于它的剪切型和撕裂裂纹启裂韧性的影响,对骨试样的裂纹扩展方向
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| 关 键 词: | 断裂韧性 皮质骨 拉伸型 载荷 剪切型 撕裂型 |
Fracture toughness of cortical bone in tension, shear, and tear--a comparison of longitudinal and transverse fracture] |
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| Z Feng. Fracture toughness of cortical bone in tension, shear, and tear--a comparison of longitudinal and transverse fracture][J]. Journal of biomedical engineering, 1997, 14(3): 199-204 |
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| Authors: | Z Feng |
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| Affiliation: | Biomaterials Research Laboratory, Department of Chemistry, Xiamen University, Xiamen 361005. |
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| Abstract: | The fracture toughness at crack initiation was determined for bovine cortical bone under tension (mode I), shear (mode II), and tear (mode III). A total of 130 compact tension specimens, compact shear specimens and triple pantleg specimens were used for the measurement of fracture toughness under tension, shear, and tear, respectively. Multiple-sample compliance method was utilized to measure the critical strain energy release rate (Gc) at the a/W = 0.55 (crack length, a, to specimen width, W, ratio). The critical stress intensity factor (Kc) was also calculated from the critical loading (PQ) of the specimens at the a/W = 0.55. The effect of the anisotropy of bone on its resistance to crack initiation under shear and tear loading was investigated as well. The fracture toughness of bone with precrack orientations parallel(designed as longitudinal fracture) to and that with precrack orientations normal (designed as transverse fracture) to the longitudinal axis of bone were compared. In longitudinal fracture, the critical strain energy release rates(Gc) of cortical bone under tension, shear, and tear were 644 +/- 102, 2430 +/- 836, and 1723 +/- 486 N/m, respectively. In transverse fracture, the critical strain energy release rates(Gc) of cortical bone under tesion, shear, and tear were 1374 +/- 183, 4710 +/- 1284, and 4016 +/- 948 N/m, respectively. An analysis of variance demonstrated that the crack initiation fracture toughness of bone under shear and tear loading is significantly greater than that under tensile loading in both longitudinal and transverse fracture. Our results also suggest that cortical bone has been "designed" to prevent crack initiation in transverse fracture under tension, shear, and tesar. |
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