1.The vertebral body of the FEA model consisted of a solid tetrahedral core of trabecular bone surrounded by a cortical shell.
椎体的有限元模型包括了坚实的四面体核心,骨小梁周围有皮质外壳。
2.The mechanical characteristic of cancellous bone depended on the microstructure and the mechanical characteristic of the trabecular bone.
松质骨的力学性质与其微结构和骨小梁的力学性质有关;
3.The damage of cancellous bone mainly depended on the damage of trabecular bone and distribution of the microcracks on trabecular bone.
松质骨的损伤主要与骨小梁的损伤和损伤分布有关。
4.We believe it problematic to describe the structure of trabecular bone using such an uniform model because of its persity and complexity.
由于松质骨的各向异性,其结构形式的多样性、复杂性,认为用一个统一的模型来描述其结构性能存在一定的问题。
5.The 30-50% higher compressive strength for central rather than for peripheral trabecular bone adapts to the shifts in axial load.
融骨器承受轴向压缩力的中心部分须较外围高30-50%以利融骨生长。
6.The FatigueMicrodamage of Trabecular Bone on the Interface of Bone - Porous Coated Implant .
微孔涂层植入物与骨组织界面骨小梁的疲劳微观损伤。
7.Objective To study the effects of low calcium diet on both trabecular bone a nd cortical bone mass in female and male rats.
目的比较低钙饮食对性别不同的大鼠腰椎松质骨和胫骨中段密质骨的影响。
8.Bisphosphonate treatment affects trabecular bone apparent modulus through micro-architecture rather than matrix properties
双膦酸盐的治疗作用通过显微结构而不是基质特性影响骨小梁的表观情况
9.An experimental study of trabecular bone histomorphology in ovariectomized rats
卵巢切除后大鼠骨小梁形态的实验研究
10.Troglitazone Treatment Increases Bone Marrow Adipose Tissue Volume but Does not Affect Trabecular Bone Volume in Mice
曲格列酮治疗可以增加实验小鼠的骨髓脂肪组织量但对骨小梁体积没有影响