ultimate flexural capacity 极限弯曲应力 ; 极限受弯承载力 ; 极限弯曲能力
the flexural capacity 正截面承载力
critical flexural capacity 界限受弯承载力
flexural capacity of beam 梁受弯承载力
the ultimate flexural capacity 抗弯承载力
out-of-plane flexural capacity 平面外承载力
flexural capacity of RUHTCC beam RUHTCC梁弯曲承载力
flexural loading capacity 罙 ; 抗弯承载力 ; 义 ; 抗弯承载性能
Subsequently, the effect of the end restraint on the flexural capacity is analyzed.
本文还分析了配筋砌块砌体剪力墙端部约束对其抗弯承载力的影响。
参考来源 - 采用端部约束的配筋砌块砌体剪力墙抗震性能试验研究From analyzing the result of experiment to know, it can effectively raise the out-of-plane flexural capacity of brick wall by strengthening with GFRP.
由试验结果分析知,采用GFRP复合材料对带壁柱砖墙进行加固,可以有效地提高砖墙的平面外抗弯能力,即可以提高砖墙的极限承载力,从而提高砖墙的平面外受荷性能。 本文主要研究竖向荷载、GFRP布的加固量和砖砌体的强度三个因素对加固砖墙平面外抗弯性能的影响。
参考来源 - GFRP加固带壁柱砖墙平面外抗弯性能试验研究Based on these, the research on the Flexural Capacity of Prestressed steel and concrete composite beams is presented.
基于此,本文就预应力钢-混凝土组合梁的抗弯承载力进行了研究。
参考来源 - 预应力钢—混凝土组合梁抗弯性能研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The Formula of ultimate flexural capacity is given according to Plastic Principle.
通过塑性铰理论,推导了加固后梁的承载力计算公式。
Subsequently, the effect of the end restraint on the flexural capacity is analyzed.
本文还分析了配筋砌块砌体剪力墙端部约束对其抗弯承载力的影响。
Shear connection degree has an effect on the flexural capacity and deflection of composite beams.
部分剪力连接对组合梁的受弯极限承载力和变形均有影响。
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