并分析钢结构变形、索力和应力监测结果。
The results of deformation, cable force and stress are analyzed.
对其进行耐压、短路电动力、温升和结构变形的分析计算。
Insulation, short circuit force, temperature rise and structure deformed are simulated analysis.
其对结构内力分布及结构变形的影响是困扰工程技术人员的长期问题。
Its influence to long-span Bridge is still a difficult problem to engineers.
这些结构的焊接变形太严重了。
把天然粘土的变形看作是出结构的破坏引起的。
The deformation of natural clays is induced due to the damage of structure.
对于大型钢结构平台的施工,防变形控制是施工的关键。
It is critical to control deformation during large size steel structure platform assembling.
分析了翻车保护结构的变形模式和失效机理。
The paper analyzed the deformation mode and failure mechanism of turn-over protection structure.
温度对结构物的作用体现在变形和应力两个方面。
Temperature affects structure in two aspects: deformation and stress.
盖板结构焊后基本未产生焊接变形。
The welding start location has little effect on the deformation of the structure.
温度变化对桥梁结构的变形影响很大。
Alteration of temperature make the great effect to bridge structure.
性质与材料结构之关系及变形与失效机构。
Relationship of mechanical behavior to material structure and mechanisms of deformation and failure.
结构致密,吸水率低,不变形,使用寿命长。
Compact structure, low water absorption, no deformation, long life.
索拱结构是大变形组合结构。
The cable arch structure is a roof structure with large deformation.
拉索拱结构是大变形组合结构。
The combined arch and cable structure is a roof structure with large deformation.
通过不同的结构设计可以控制驱动膜片结构的弯曲变形方向。
Different deflection direction can be obtained through the different structure design.
高层建筑结构的设计往往由其变形所控制。
The design of tall building is often controlled by its deformation.
天然黏土一般都具有结构性,其变形过程必然伴随着结构的破坏。
The structure of natural clays must be destroyed during the deformation process.
结构的多变使桥塔在施工过程中的受力变形分析较为复杂。
The bridge tower stress and displacement are very complex when it is erected.
结构的多变使桥塔在施工过程中的受力变形分析较为复杂。
The bridge tower stress and displacement are very complex when it is erected.
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