Axial Compression Ratio

美 [ˈæksiəl kəmˈprɛʃən ˈreɪʃioʊ]英 [ˈæksiəl kəmˈprɛʃən ˈreɪʃiəʊ]
  • 网络轴压比
Axial Compression RatioAxial Compression Ratio
  1. Reliability analysis on ultimate axial compression ratio of architecture structure

    建筑结构轴压比限值的可靠性分析

  2. So , different limited axial compression ratio can be used in the design .

    因此,在设计时应根据不同的情况采用不同的轴压比限值。

  3. Effect of mechanical properties to frame columns with different axial compression ratio

    不同轴压比对钢筋混凝土框架柱力学性能的影响

  4. Experimental Study on Seismic Behavior of Flat Columns with High Axial Compression Ratio

    高轴压比扁柱的抗震性能试验研究

  5. Method to increase the limited values on axial compression ratio of shear wall

    提高剪力墙轴压比限值的方法

  6. Study on axial compression ratio calculation and limit value for steel reinforced concrete walls

    型钢混凝土剪力墙轴压比计算及其限值研究

  7. Study on seismic behavior of SRC shear walls under high axial compression ratio

    高轴压比SRC剪力墙抗震性能分析

  8. The carrying capacity of joints is affected by axial compression ratio .

    翼缘最后的破坏形式是轴压比引起的正截面破坏;

  9. Study on Axial Compression Ratio Limit Values of Steel Reinforced High strength Concrete Compound Columns

    钢骨高强混凝土叠合柱轴压比限值的分析

  10. Low axial compression ratio is beneficial to the carrying capacity of joints .

    轴压比影响节点承载力,低轴压比状态下起有利作用。

  11. Study of the Limit Value of Axial Compression Ratio of Reinforced Concrete Special Shaped Columns

    钢筋砼异形柱轴压比限值分析研究

  12. Effect of axial compression ratio to bearing capacity of piece with T-shaped section

    轴压比对T形截面构件承载力的影响

  13. Measures to improve the axial compression ratio performances of lower columns for high-rise building

    改善高层建筑下部柱轴压比性能的措施

  14. The aseismic strengthening methods of the columns with excess axial compression ratio

    轴压比超限的柱抗震加固方法

  15. Effect of axial compression ratio on seismic behavior of reinforced light-weight concrete shear walls

    轴压比对中等高度LC结构剪力墙抗震性能的影响

  16. The analysis result indicate that the axial compression ratio is changed with the section of column .

    分析结果表明,截面的形状不同,柱的轴压比限值是不一样的。

  17. Study on the limit value of axial compression ratio of columns in frame-shear wall structures

    高层框架-剪力墙结构柱轴压比限值讨论

  18. The application of CFS for increasing the axial compression ratio and ductility of column

    碳纤维布加固提高钢筋混凝土柱轴压比及延性的工程应用

  19. Simple Computational Method of Limited Value of Axial Compression Ratio for Reinforced Concrete Circular and Ring Columns

    钢筋混凝土圆(环)形柱大小偏压轴压比限值简化算法

  20. The Limitation for Axial Compression Ratio of Prestressed Concrete and Partially Pressed Concrete Column

    预应力和部分预应力混凝土柱轴压比限值

  21. Research on restoring force models of frame columns with ultra-limited axial compression ratio

    轴压比超限时框架柱的恢复力模型研究

  22. Limit value of axial compression ratio of SRC column with H-shaped or cross steel section

    配置工字、十字形钢骨的钢骨混凝土柱轴压比限值

  23. The design and construction method of the high-strength concrete frame-bent columns under the high axial compression ratio ;

    针对该类主厂房结构中应用高强混凝土的问题,提出应用高强混凝土的框排架柱的轴压比限值及相应的构造要求;

  24. Finally , new limit values of axial compression ratio were recommended for concrete frame columns with central reinforcement .

    最后提出了加芯混凝土框架柱轴压比限值的新建议值。

  25. Based on the test results , the limit values of axial compression ratio for reinforced concrete frame columns are proposed .

    根据试验结果提出了钢筋混凝土框架柱轴压比超限值。

  26. Experimental study on ductility and bearing capacity of concrete frame columns with central reinforcement under high axial compression ratio ;

    通过建立合理的力学模型,着重研究轴压比、混凝土强度对免拆模复合带缝剪力墙性能的影响。

  27. Side column reinforcement and axial compression ratio are main factors influence the deformation capability of the concrete lattice wall .

    加强边柱、轴压比对以剪切破坏为主的保温砌模格构式混凝土墙体的变形能力影响较大。

  28. The definitions of parameters of axial compression ratio and shear span ratio of split columns were given .

    给出了分体柱轴压比、剪跨比等概念参数的定义。

  29. As the axial compression ratio increased from 0.16 to 0.32 , the capacities of the joints increased .

    当轴压比从0.16提高到0.32时,节点核心区强度有所提高;

  30. As a result , the crack load will be large with increase of the axial compression ratio and the rate of steel ;

    试验表明轴压比和含钢率越大,节点的开裂荷载越大;