The paper is dedicated to study the low-cycle fatigue behavior of a certain semi-rigid connection: the top- and -seat angle.
本文尝试研究一种半刚性连接-顶底角钢连接的低周疲劳性能。
Therefore , the paper is dedicated to study a new type joint-top and seat angle with double web angles semi-rigid connection.
为此,本文在参照国内外大量文献资料的基础上,致力于研究一种具有优良抗震性能的新型节点一双腹板、顶底角钢半刚性连接节点。
Therefore, the influences of semi-rigid connection on steel frame structure are fully taken into account in the analysis and design of steel frame.
因此,在钢框架的分析和设计时应充分考虑半刚性节点连接的影响。
In comparison with the condition of rigid connection, the influence of semi-rigid connection to effective length factor of columns has been analyzed quantitatively.
通过与刚性连接情况的比较,定量的分析了半刚性连接对框架柱计算长度的影响。
It is shown that economical designs may be realized with semi-rigid connections by a variation of connection stiffness that balances the span and end moments in a beam.
连接的柔性对无支撑框架的侧移有很大的影响,设计时通过变化连接的刚度以平衡梁的跨中和端弯矩。
The finite element model of the semi-rigid connection between members of frame structures is established in this paper, and it is applied to the model of joint parameters identification.
构造了半刚性结构连接单元,并应用于结构连接参数识别的模型中。
As its special property, such as permission of web buckling behavior and semi-rigid connection, is different from other structural systems, it is necessary to study on its seismic behavior.
由于门式刚架自身的特殊问题,如允许构件腹板局部屈曲和半刚性连接等不同于其他结构的受力特点,因此,急需开展这种结构形式的抗震性能研究。
The stiffness matrix of semi-rigid steel frames and the fixed end moment are deduced, based on the connection element method incorporating the effects of joint flexibility.
采用连接单元法,考虑连接柔性的影响,推导出半刚性框架梁柱的刚度矩阵及半刚性梁的固端弯矩。
The result indicates that the value of structure deformation is influenced by the rigid value of the connection of the semi-rigid frame.
结果表明,半刚性框架节点刚度的大小将直接影响结构的变形大小。
The research on the loading capability of connection and the establishment of calculational model are the base of understanding semi-rigid joints.
研究连接的受力性能并确定计算模型是研究半刚性节点的基础。
The research on the loading capability of connection and the establishment of calculational model are the base of understanding semi-rigid joints.
研究连接的受力性能并确定计算模型是研究半刚性节点的基础。
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