Tensioned Membrane structure

美 [ˈtenʃnd ˈmembreɪn ˈstrʌktʃər]英 [ˈtenʃnd ˈmembreɪn ˈstrʌktʃə(r)]
  • 网络张拉膜结构;膜结构;膜布局又叫张拉膜布局
Tensioned Membrane structureTensioned Membrane structure
  1. Study on full process experiment of full scale tensioned membrane structure

    张拉膜结构模型全过程试验研究

  2. Tensioned membrane structure is a new spatial structure system developed in recent years .

    张拉膜结构是近年来刚发展的一种新颖独特的空间结构体系。

  3. The whole process integrated analysis of tensioned membrane structure

    张力膜结构的全过程集成分析及其策略研究

  4. Design and Analysis of Stability - cable - reinforced Tensioned Membrane Structure

    稳定索加强的张拉膜结构设计与分析

  5. Force density method is frequently used for form finding of tensioned membrane structure .

    力密度法是张拉膜结构找形分析中最常用的方法之一。

  6. Finally a real case of shape optimization of tensioned membrane structure is analyzed .

    最后给出了一张力膜结构形状优化实例分析。

  7. Form Creation Skill of Large Space Tensioned Membrane Structure

    大空间张拉膜结构建筑的形态构造技巧

  8. Tensioned membrane structure has a promising prospect for its advantages .

    张力膜结构是膜结构中的一类,它体现了现今结构选型的趋势&杂交体系,具有很好的发展前景。

  9. The application of tensioned membrane structure was the most extensive in all kinds of membrane structure systems .

    在各种膜结构体系中,张拉膜结构的应用最为广泛。

  10. Shrinkage Compensation in Cutting of Tensioned Membrane Structure

    张拉膜结构裁剪时收缩补偿值的若干探讨

  11. Shape Optimization of Tensioned Membrane Structure

    张力膜结构形状优化

  12. At present , the theoretical study on the aerodynamic instability of tensioned membrane structure is hysteretic for a further development of engineering practice .

    目前,针对张拉膜结构气动失稳破坏的基础理论研究还较少,理论研究的滞后已影响到了工程实践。

  13. Nowadays , how to measure the pretension of the tensioned membrane structure accurately is still the research focus in the membrane structure field .

    如何正确地丈量膜材预张力值一直是业界致力研究的一个方向。

  14. This article introduces the full process of design , fabrication and construction of a tensioned membrane structure in the sale house of Wantong New World estate project in beijing .

    本文详细介绍了北京万通新世界售楼处内张拉膜结构工程的设计、制作和施工全过程。

  15. Cutting is an important step in the analysis of tensioned membrane structure and shrinkage compensation constitutes a very important parameter in cutting analysis , which affects the safety and economy of a project .

    裁剪分析是张拉膜结构分析的重要环节,收缩补偿值是裁剪分析的一个极其重要的参数,涉及到结构的安全与经济。

  16. Tensioned membrane structure , a flexible space system with elegant appearance , long span , good seismic performance and economy , etc. , is strongly favoured by architects for the past few decades .

    张拉膜结构是最近几十年才兴起的一种应用十分广泛的具有造型优美、覆盖跨度大、经济性好和易于建造等优点的大跨度柔性空间结构。

  17. The paper introduce briefly the development history , composing system , function traits and aesthetic merit of tensioned membrane structure architecture to help normal architects to understand the system , and point the creative designing peculiarities and requests of tensioned membrane structure architecture .

    对张拉膜结构建筑的历史、体系组成、性能特性及美学价值等方面做简要介绍,以期帮助一般建筑师对这种建筑形式有系统地了解,并指出张拉膜结构建筑设计创作的特点和要求。

  18. Tensioned membrane structure is a new type of structure system , which stiffness is given by the pre-tensioned stress within membrane and the geometry of pre-formed . The structure compared with traditional ones has two significant features , that is the " lightweight " and " flexibility " .

    张拉膜是一种新型的结构体系,其刚度是靠膜内预张力和一定几何形状而形成的,这类结构与传统的结构相比具有两个显著的特点轻和柔。

  19. Tensioned Cable - Membrane structure is a new structure form .

    膜结构是一种新兴的建筑结构。

  20. Tensioned cable - membrane structure system and its construction technology

    张拉索膜结构体系及其施工技术

  21. The relationship between frequency and prestress , ratio of rise to span of tensioned cable and membrane structure are also studied .

    系统分析了索膜结构自振特性与预应力、矢跨比、索初始应力等的关系。

  22. For its beautiful architectural shape and good bearing system , Tensioned cable and membrane structure is getting more and more favor of architect and probably have a broadening application .

    索膜结构以其优美的建筑造型和良好的受力体系受到建筑师的青睐,其应用也将越来越广泛。

  23. The frequency of tensioned cable and membrane structure is very dense and nonlinear property is obvious . The frequency of structure becomes higher with the increase of membrane prestress , ratio of rise to span and initial strain of cables .

    研究表明,典型遮阳棚自振频率密集,非线性动力特性明显,索膜结构自振频率随着弹性模量、膜材预应力、索初始应变以及高跨比的增加而增加,其中高跨比影响最大。