Seismic Upgradation of Building Using Shear Wall and Bracing

Sunil Kumar Sagar
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Abstract

Abstract: The seismic assessment prepare comprises of exploring in case the structure meets the defined target structural performance levels. The main goal during earthquakes is to assure to people is minimized and beyond that to satisfy postearthquake performance level for defined range of seismic hazards. Rehabilitation prepares points to progress seismic execution and adjust the lacks by increasing quality, firmness or distortion capacity and making strides associations. Hence, a proposed retrofit execution can be said to be fruitful in the event that it comes about an increment in strength and ductility capacity of the structure which is more noteworthy than the requests forced by earthquakes. Seismic force, predominantly being an inertia force depends on the mass of the structure. As the mass of the structure increases the seismic forces also increase causing the requirement of even heavier sections to counter that heavy forces. And these heavy sections further increase the mass of the structure leading to even heavier seismic forces. Structural designers are met with huge challenge to balance these contradictory physical phenomena to make the structure safe. The structure no more can afford to be rigid. This introduces the concept of ductility. The structures are made ductile, allowing it yield in order to dissipate the seismic forces. A framed structure can be easily made ductile by properly detailing of the reinforcement. But again, as the building height goes beyond a certain limit, these framed structure sections (columns) get larger and larger to the extent that they are no more practically feasible in a structure. There comes the role of shear walls. Shear walls provide ample amount of stiffness to the building frame resisting loads through in plane bending. But they inherently make the structure stiffer. So, there must be a balance between the amount of shear walls and frame elements present in a structure for safe and economic design of high-rise structures
利用剪力墙和支撑对建筑物进行抗震改造
摘要:抗震评估准备工作包括探讨结构是否符合规定的目标结构性能水平。地震期间的主要目标是确保最大限度地减少对人类的伤害,除此之外,还要满足震后在规定的地震灾害范围内的性能水平。改造准备工作的要点是通过提高质量、坚固性或抗变形能力以及加强联系来改进抗震工作和调整不足之处。因此,如果结构的强度和延性能力的提高比地震的要求更显著,则可以说建议的改造执行是富有成效的。地震力主要是一种惯性力,取决于结构的质量。随着结构质量的增加,地震力也随之增加,因此需要更重的截面来抵消这种重力。而这些重型截面又进一步增加了结构的质量,从而导致更重的地震力。结构设计师面临着巨大的挑战,他们需要平衡这些相互矛盾的物理现象,以确保结构的安全。结构不能再僵硬。这就引入了延性的概念。使结构具有延性,使其屈服以消散地震力。通过对钢筋进行适当的细部设计,可以很容易地使框架结构具有延展性。但是,当建筑高度超过一定限度时,这些框架结构的截面(柱子)会越来越大,以至于在结构上不再可行。这就需要剪力墙发挥作用。剪力墙可为建筑框架提供足够的刚度,通过平面弯曲来抵抗荷载。但剪力墙本身也会使结构更加坚硬。因此,必须在结构中的剪力墙和框架构件的数量之间取得平衡,以便安全、经济地设计高层建筑结构。
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