基于钢筋混凝土梁性能的细长极限,用于控制钢筋的变形和应力控制

IF 0.1 Q4 ENGINEERING, CIVIL Hormigon y Acero Pub Date : 2020-12-17 DOI:10.33586/HYA.2020.2112
Antonio Marí Bernat, Lluís Torres Llinàs, Eva Oller Ibars, Cristina Barris Peña
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引用次数: 0

摘要

目前基于ULS的钢筋混凝土构件抗弯设计程序,提供了足够的强度来抵抗设计荷载,降低了深度。然而,为满足ULS而计算的严格的截面尺寸和配筋量可能不足以避免非结构构件的过度变形而产生损伤,也不足以确保控制开裂以满足耐久性、功能性或美观性要求。考虑到开裂钢筋混凝土构件在其使用寿命期间挠度和裂缝宽度的严格计算的复杂性,限制构件的长细比l/d是保证构件满足SLS要求的有效方法。在本研究中,将以前用于挠度控制的长细比限制概念推广到基于结构性能设计的框架中,以纳入裂缝宽度限制。推导了包含影响RC构件使用性能的主要参数的长细极限方程,该方程适用于矩形I形或T形截面以及简支或连续构件。通过结构混凝土力学和实验观察得出的简化系数来考虑开裂和长期影响。在恒定荷载和恒定钢筋应变下得到的拟议长细限值,与使用基于曲率积分的挠度计算的EC2程序得到的结果进行了比较。结果表明,所提出的长细限值是基于性能的钢筋混凝土结构设计的有效工具。该配方的力学特性有助于对其进行修改,以适应不同的情况,例如不同的荷载类型,部分预应力梁或FRP增强混凝土构件等
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Límites de esbeltez basados en prestaciones para vigas de hormigón armado para el control de deformaciones y el control de tensiones en la armadura
Current flexural design procedures of RC elements, based on ULS, provide enough strength to resist the design loads with a reduced depth. However, the strict cross section dimensions and reinforcement amount computed to satisfy the ULS may be insufficient to avoid excessive deformations that can produce damage in non-structural members, or to ensure the control of cracking to satisfy durability, functionality or aesthetics requirements. Due to the complexity associated to a rigorous computation of deflections and cracks width in cracked RC members along their service life, an effective way to ensure the satisfaction of the SLS is to limit the slenderness ratio l/d of the element. In the present study, the slenderness limit concept, previously used for deflection control, is generalized to incorporate the crack width limitations in the framework of structural performance-based design. Equations for slenderness limits incorporating the main parameters influencing the service behaviour of RC members are derived, which are valid for rectangular I or T shaped cross sections and for simply supported or continuous members. Cracking and long-term effects are accounted for through simplified coefficients derived from structural concrete mechanics and experimental observations. The proposed slenderness limits obtained both for a constant applied load and for a constant reinforcement strain, are compared with those obtained using the EC2 procedure for deflection calculation based on integration of curvatures. Good results have been obtained in terms of low errors and scatter, showing that the proposed slenderness limits are a useful tool for performance-based design of RC structures. The mechanical character of the formulation facilitates its modification to situations different to those used for its derivation, for example different load types, partially pre-stressed beams or FRP reinforced concrete members, among others
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Hormigon y Acero
Hormigon y Acero ENGINEERING, CIVIL-
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