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[航]长细比;长度直径比
1、slenderness column───细长柱
2、slenderness moment───长细比力矩
3、variation ratio───异众比率;变异比率;变速比,变速范围
4、ratio───n.比率,比例
5、slenderness limit───长细比极限
6、slenderness factor───长细比系数
7、slenderness check───长细比检查
8、slenderness───n.细长;苗条
9、slenderness effects───细长效应
1、however, the strength doesn't vary with slenderness ratio when slenderness ratio is greater than 2.───端部固定且长径比小于2时,强度和平均模量随长径比减小而增大。
2、problems encountered in theoretical limit analysis of columns with medium slenderness ratio are discussed.───论述了求解中长柱承载能力在理论上所遇到的若干困难。
3、A calculation method for equivalent slenderness ratio by a graphical method is presented.───给出了应用图表法的换算长细比计算方法。
4、Moreover, the influence of initial crookedness would be reduced as slenderness ratio and bending moment are increased.───初弯曲对杆件的影响随长细比和弯矩的增大而减小;
5、It is confirmed that both rise-to-span ratio and slenderness ratio influence the elastic buckling load.───指出了必须同时考虑长细比和矢跨比对屈曲荷载的影响。
6、Design of Die Used for Bigger Slenderness Ratio Half Hollow Aluminium Profile───具有较大舌比的半空心铝型材模具的设计
7、Experimental study on influence of slenderness ratio in concrete filled steel tubular laced columns under eccentric compression───钢管混凝土偏压格构柱长细比影响试验研究
8、Tests show that the strength of column decreases as its slenderness ratio increases.───试验表明,这种柱子的承载能力随长细比的增大而显著下降。
9、approach of equivalent slenderness ratio is recommended for calculation purpose.───计算方法宜采用换算长细比法。
1、Test results show that not only the slenderness ratio and eccentricity ratio affect the load-carrying capacity of columns, but also the end moments as well.
2、The bearing capacity and the ductility of a FRP-confined concrete column decrease with the increase of slenderness ratio.
3、Moreover, the influence of initial crookedness would be reduced as slenderness ratio and bending moment are increased.
4、The resista nce decreases intensely when the slenderness ratio of the hot molding sand layer increases.
5、It is shown that the nonlinear frequency ratio increases with the vibration amplitude and the slenderness ratio.
6、Meanwhile the effects of slenderness ratio and load eccentricity on the ultimate load-capacity of slender composite columns are numerically analyzed and discussed in detail.
7、Some kinds of Newtons theory of collision methods is extended to calculate the supersonic and hypersonic missiles with large slenderness ratio.
8、It is confirmed that both rise-to-span ratio and slenderness ratio influence the elastic buckling load.
9、Also analyzed are the influences of CFRP ratio, angle steel ratio, slenderness ratio and eccentricity to the mechanical properties of the columns.