说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 蜂窝式交叉梁
1)  three-way beam
蜂窝式交叉梁
1.
This paper discuses the strength decreases problem of the reinforced concrete two-way and three-way beams in floor structure.
在楼层结构体系中,钢筋混凝土井字梁和蜂窝式交叉梁是经常采用的结构体系。
2)  castellated beam
蜂窝梁
1.
Calculation of flexural deflection for castellated beams;
蜂窝梁弯曲变形的实用算法
2.
Finite element analysis and simplified calculation for normal stresses at mid-pier sections of hexagon-castellated beams;
六边形孔蜂窝梁墩心截面纵向应力分析与计算
3)  castellated beams
蜂窝梁
1.
A characteristic point stiffiness method for tracing limit point of MDOF (Multi-degree-of-freedom) nonlinear structures is proposed in this paper By means of this method, the whole nonlinear elastoplastic path of displacement -load of castellated beams has been successfully traced It gives an insight into the failure state of castellated baem
根据跟踪结构极限荷载的特征点刚度方法,首次对自由度数非常大的蜂窝梁进行了非线性荷载位移全过程分析,揭示了蜂窝梁的受力特性,从而对蜂窝梁的非线性工作状态有了较为全面的了解。
4)  honeycomb beam
蜂窝梁
1.
This article mainly studies the feasibility of the honeycomb beam in the boiler steel structure design,which may has great prospect in the futural design work.
主要研究蜂窝梁在锅炉钢结构设计中的可行性,在今后钢结构的设计中具有很大的发展前景。
2.
The stiffness,strength and global stability of a honeycomb beam under bending moment are analyzed using finite element method.
通过有限元模拟分析了圆孔蜂窝梁在承受弯曲作用时的刚度、强度和稳定性情况。
5)  honeycombed steel beam
蜂窝钢梁
1.
Pseudo-static test research on concrete column-honeycombed steel beam composite joints
混凝土柱-蜂窝钢梁组合节点拟静力试验研究
2.
A series of specimens,including four pass-through connection joints,two extended end-plate connection joints and two end-plate connection joints under low cyclic reversed load were tested in order to study the failure characteristic and bearing performance of honeycombed steel beam and welded compound-ring-hoop concrete column composite joints.
为研究焊接蜂窝钢梁-复合焊接环式箍筋砼柱连接节点的破坏特征和受力性能,进行了4个蜂窝梁贯通型接点、2个外伸式端板连接节点、2个平齐式端板连接节点的低周反复荷载试验。
6)  oblong-castellated beam
卧式似椭圆孔蜂窝梁
补充资料:交叉式构象
分子式:
CAS号:

性质:是链型有机分子的一种典型构象。高分子或低分子的碳-碳单键都可以以键向为轴进行内旋转。但由于碳原子带有的其他原子或基团的排斥作用使内旋转受阻,这种非键合原子之间的距离越近,排斥作用越强烈,内旋转阻力就越大。反之阻力就小。以乙烷分子为例,它的两个甲基沿碳-碳单键旋转,当旋转角为0°,120°,240°时氢原子间距离最远,斥力最小,势能最低,结构最稳定,此时分子的构象呈交叉式。

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