1) compressive capacity
受压承载力
1.
A conclusion as to how the compressive capacity of the short column varies with the spacing of hoop and characteristic value is obtained.
建立了钢筋混凝土轴心受压短柱非线性有限元模型 ,分析了含箍特征值 λv 和箍筋间距 s对矩形箍筋柱的受压承载力的影响 ,得到了柱的受压承载力的提高随不同强度的混凝土、不同λv的箍筋的变化规
2) compressive bearing capacity
受压承载力
1.
and a formula for calculating the compressive bearing capacity of brick masonry structure with concrete constructional columns is suggested.
考虑砌体材料的非线性受力特征,按变形一致的原则建立了设置砼构造柱砖砌体受压承载力计算公式,计算结果有较好的适应性,为用普通砖砌体材料建造高层建筑结构提供一定的理论依据。
3) axial press capacity
轴向受压承载力
1.
So, it has great engineering significance to increase the axial press capacity and ductility of RCSSC in the same area of the section.
因此,如何在保持现有截面的大小的情况下,同时提高异形柱的轴向受压承载力和柱的延性具有重要的工程意义。
4) local bearing capacity
局部受压承载力
1.
Calculating method of the local bearing capacity of concrete under closely spaced anchorages;
密布预应力束锚具下混凝土局部受压承载力计算方法
5) ultimate compressive bearing capacity
受压极限承载力
1.
Research on ultimate compressive bearing capacity of circular tubular Y-joints reinforced with doubler plate
垫板加强Y型圆钢管节点受压极限承载力研究
6) axial compression bearing capacity
轴心受压承载力
1.
Then the calculation formula for axial compression bearing capacity of the shape-steel reinforced concrete special-shaped columns is suggested for design.
通过分析破坏过程及试验数据资料,最后给出了适用于T、L及十字形异形柱的轴心受压承载力计算公式,以供设计参考。
补充资料:无弹性架压磁测力传感器压头
无弹性架压磁测力传感器压头
无弹性架压碰测力传感器压头
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条