1) building's storey-addition
建筑物加层
2) stories adding
建筑加层
4) high-rise building
高层建筑物
1.
Lightning protective earthing and shielding of high-rise buildings;
高层建筑物的防雷接地和屏蔽
2.
Based on this,for example,the high-rise building,this paper introduces the deformation observation method of high-rise building and analyzes the deformation reasons;at last puts forward the concrete solution scheme.
建筑物在建筑过程中可能会对其周围建筑物产生形变影响,基于此,以某高层住宅楼为例,介绍了高层建筑物变形观测的主要方法,并对其变形原因进行分析,最后提出了具体的解决方案。
3.
This article analyzes the factors about subsidence of the high-rise building,including the reasons of building itself and the change of the natural condition,which discusses the reference point and observation point build and observation method and cycle in subsidence observation process.
分析引起高层建筑物沉降的因素,包括建筑物本身相联系的原因和自然条件引起的变化,论述沉降观测过程中基准点、观测点的布设、观测方法及周期,以提高高层建筑物的沉降观测精度,从而确保建筑物的安全。
5) high building
高层建筑物
1.
Analysis on dynamic behaviors of high buildings— pile foundation—soil system;
高层建筑物—桩筏基础—地基相互作用体系动力特性分析
2.
Extraction method of standing faces of high building based on perceptual organization
基于感知编组的高层建筑物立面提取方法
3.
The high building lightning protection has its complexity,this text advances the auditing importance of protection lighting is lightning protection of basic flat,side stroke thunder,equipotential bonding,power supply,computer network,fire fighting control system,reasonable comprehensive wiring,surface lightning protection etc.
高层建筑物防雷具有其复杂性,本文提出防雷审核重点是基础平面防雷、侧击雷、等电位连接措施、供电、计算机网络及消防控制系统防雷、合理的综合布线、天面防雷等,掌握了防雷审核要素,能够快捷、高效无遗漏地审核高层建筑物防雷装置,找出防雷审核思路,提高工作效率。
6) tall building
高层建筑物
1.
This article discussed the tall building subsidence observation necessity,the subsidence observation rank and the precision determines,the standard basic point and the subsidence observation point establishes,subsidence observation method,subsidence observation cycle and frequency rate.
对高层建筑物沉降观测的必要性、沉降观测等级及精度确定、水准基点和沉降观测点布设、沉降观测方法、沉降观测周期和频率等方面进行了讨论,介绍了沉降观测成果的处理、安全性分析及变形预报的方法。
2.
The wind load is a major load on tall buildings from side directions.
风荷载是高层建筑物的主要侧向控制荷载,准确地测量作用于建筑物上的静态和动态风荷载并预测建筑物的动态响应具有重要的工程意义。
补充资料:氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
J氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
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