由MRI鉴别出的应力性损伤不和身体的体检,比如特别区域的触痛相互关联。
The stress injuries identified by MRI did not correlate with physical exam findings such as tenderness in a particular area.
目的通过比较高频超声与MRI在新兵胫骨应力性损伤中的影像学特征,进一步了解高频超声对应力性骨损伤的诊断价值。
ObjectiveTo get across the diagnostic value of high-frequency ultrasonography and MRI image in recruit tibial stress injury by comparing their imaging features.
为开展预应力结构抗火性能分析及火灾后损伤评估提供了基础性素材。
All can be served as basic data for analysis of fire resistance and after-fire damage evaluation of prestressed structures.
利用应变等效性假设,推导了地壳体的应力-损伤耦合效应与地表重力变化之间的理论关系。
On the strength equivalent hypothesis, the theory relation between stress-damage coupling effect and variation of crustal gravity field.
该模型综合了变形、能量累积以及荷载历程对预应力混凝土构件损伤-破坏的影响,对不同的地震模式有更好的适用性。
This model synthesizes the effect of distortion, energy accumulation, and loading history to damage-failure of prestressed concrete member, thus may be applied to different earthquake patterns.
新鲜心包组织生物性更好并具有一定的生长潜能,其远期退变和钙化,可能与受机械应力损伤相关性更大,此项内容有待进一步研究。
The problem of degeneration and calcification within fresh pericardial valves may due to the damage caused by mechanical stress more than others, which should be proved in further studies.
急性创伤性损伤中以踝关节扭伤多见,过劳性损伤以应力性骨折为主。
Ankle sprain was most frequently seen in acute traumatic injuries while stress fracture was the most frequent in exhaustive injuries.
进行了碳化环境下预应力混凝土试件弯曲受拉和直接受压的耐久性试验研究,阐述了碳化作用对预应力混凝土结构的损伤机理。
The durability experiment of prestressed concrete specimens in the bending tensile status or in the directly compressive status in carbonation environment has been carried out.
以上环节中若出现大于允许应力时,就会导致破坏性损伤,甚至折裂、坍塌等严重后果。
If the above link is greater than the allowable stress, it will lead to destructive damage, or even crack, collapse and other serious consequences.
整个损伤过程揭示了非均匀性的存在是非线性变形的根本,而高的剪应力是产生剪切损伤的根源。
The damage processes revealed that heterogeneity is the source of nonlinear deformation, and high shear stress is the reason of shear damage.
整个损伤过程揭示了非均匀性的存在是非线性变形的根本,而高的剪应力是产生剪切损伤的根源。
The damage processes revealed that heterogeneity is the source of nonlinear deformation, and high shear stress is the reason of shear damage.
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