排序方式: 共有4条查询结果,搜索用时 15 毫秒
1
1.
附着升降脚手架是适应高层建筑,特别是超高层建筑施工需要的新型脚手架,近年来,在我国应用较为广泛。风荷载是该类脚手架的主导设计荷载,特别是当爬升至150m高度以上时,风荷载对脚手架的安全使用起着决定性作用。风振系数是脚手架风荷载计算中的重要参数之一。本文通过对脉动风作用下附着升降脚手架与建筑结构共同工作的随机振动分析,得到了附着升降脚手架在爬升阶段和下降阶段的风振系数表达式。对本文大量电算结果与现行国家标准和地方规程的有关规定进行了比较分析后认为,脚手架在爬升阶段和下降阶段的风振系数与所附着建筑结构的风振系数有着不同的数值及变化规律。现行国家标准和地方规程对于爬升高度超过100m时将某一位置处脚手架的风振系数用建筑结构在该点的风振系数来近似代替,或根本不计入风振系数的做法,会使得附着升降脚手架的风荷载计算在爬升阶段以及下降阶段产生不同性质或不同程度的误差。本文建议不论附着升降脚手架的使用高度是否已超过100m均应计算脚手架自身的风振系数。 相似文献
2.
3.
4.
Spatial Thinking by Young Children: Neurologic Evidence for Early Development and “Educability” 总被引:2,自引:1,他引:1
《The Journal of geography》2012,111(5):181-191
Abstract The human brain appears to have several “regions” that are structured to do different kinds of spatial thinking, according to a large and rapidly growing body of research in a number of disciplines. Building on a previous review of research with older children and adults, this article summarizes the research on spatial thinking by young children. Three conclusions: brain structures for spatial reasoning are fully functional at a very early age, adult intervention can enhance both use and representational ability, and practice in early grades is an important, perhaps even essential, part of the scaffold for later learning. 相似文献
1