deformation under load 双语例句
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1·Through discussion of the structure design and operating principle, the equation of deformation under load is established and the relationship between parameters is analyzed.
通过对其结构设计、工作原理的论述,建立受载变形公式,分析其参数间的关系。
2·The stress characteristic of the interface, deformation rule under the action of load and the stress distribution rule were discussed by adopting the experimental research method.
采用实验研究的方法,探讨锚固体界面力学特征、在荷载作用下变形规律以及界面上的应力分布规律。
3·In a leader, installed in the upper crossbeam gabion stone kg, plus kg load under the action of external load, while the central beam bending deformation, but the wire cage has not broken beam.
在一组长,内装公斤块石的铅丝笼横梁上部,加上公斤的荷重,在外荷作用下,梁的中部虽然发生弯曲变形,但铅丝笼梁却始终未断裂破坏。
4·In this paper, the stress and deformation of three different structuring forms of ship hull are analyzed under the conditions of the same external load and the equal mass structure.
本文在外载相同、艇体结构质量相等的条件下,对三种不同结构形式的艇体进行了应力与变形分析。
5·Therefore, it has great significance to study on the load transfer mechanism and deformation characteristics of composite ground under flexible foundation.
因此开展柔性基础下复合地基的荷载传递规律及其变形特性的研究具有重要意义。
6·MCSAP program was applied to the finite element analysis for the stress and deformation of a high-speed Gleason spiral bevel gear under centrifugal load.
使用修改移植的MCSAP有限元分析程序对某高速弧齿锥齿轮进行了离心载荷下的变形和应力的分析。
7·Under constant load, the plastic deformation increased when the tendon under went a prolonged stretch or under warmer temperature.
在恒定载荷下,随持续拉伸时间延长或温度升高,肌腱的塑性变形明显增加。
8·The nonlinear deformation in tower body of self-elevating tower crane under load is characterized by the horizontal displacement and tilt ratio of its top.
自升塔式起重机在载荷状态下,塔身非线性变形的主要表征是其顶部的水平位移和斜率。
9·Because of the large deformation of the soft base structure, the pavement would have fatigue failure under heavy load to make the road losing its function.
柔性基层结构由于基层结构变形大,在重载交通条件下,路面面层短期内在重复荷载作用下易产生疲劳破坏,导致路面结构层的功能丧失。
10·Analyzing the micro plastic deformation of metal material under static load and cyclic stress, the scientific basis for choice dynamical stress of VSR is provide.
本文分析了静载荷及循环载荷下的微塑性变形行为,认为振动时效动应力的选择应以材料的疲劳极限作为依据。
