Y. H. Sudeep, M. S. Ujwal, K. R. Purushotham, R. Shanthi Vangadeshwari, G. Shiva Kumar
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引用次数: 0
摘要
本研究探讨了倾斜地形上多层钢筋混凝土建筑的结构性能,重点比较了标准普通柱、带剪力墙的普通柱和 V 型柱结构。分析的各种参数包括楼层剪力、最大位移、楼层漂移、刚度变化和时间周期,所有这些参数对于了解各种条件下结构的动态行为至关重要。结果表明,与标准柱相比,V 型柱能显著增强结构稳定性,特别是在减少最大位移和楼层漂移以及改善荷载分布方面。在一座倾斜 10 度的 10 层建筑中,V 型柱的最大位移为 13.582 毫米,低于标准柱的 22.697 毫米。分析还显示,V 型柱在不同的倾斜角度和楼层高度下都能保持稳定的性能,这表明它们在控制横向移动和管理剪力方面非常有效,尤其是在高层建筑中。研究还表明,采用 V 型柱的模型的时间周期通常较短,这表明其动态性能更好。研究结果表明,V 型柱可提供出色的稳定性、荷载管理和整体结构效率,是在倾斜地形上设计多层建筑的首选。
Evaluating the impact of V-shaped columns on the dynamic behavior of RC buildings on sloped ground
This study investigates the structural performance of multi-story reinforced concrete buildings on sloped terrains, with a focus on comparing standard normal column, normal columns with shear wall and V-shaped column configurations. The various parameters analysed include story shear, maximum displacement, story drift, stiffness variation, and time period, all of which are crucial for understanding the dynamic behaviour of structures under various conditions. The results indicate that V-shaped columns significantly enhance structural stability, particularly in reducing maximum displacement and story drift, and in improving load distribution, as compared to standard columns. In a 10-story building with a 10-degree incline, V-shaped columns exhibited a maximum displacement of 13.582 mm, lower than the 22.697 mm observed in standard columns. The analysis also reveals that V-shaped columns maintain consistent performance across different incline angles and story heights, demonstrating their efficiency in controlling lateral movement and managing shear forces, especially in taller structures. The study also shows that time periods are generally shorter for models with V-shaped columns, indicating better dynamic performance. The findings suggest that V-shaped columns are preferable for the design of multi-story buildings on sloped terrains, offering superior stability, load management, and overall structural efficiency.
期刊介绍:
The Asian Journal of Civil Engineering (Building and Housing) welcomes articles and research contributions on topics such as:- Structural analysis and design - Earthquake and structural engineering - New building materials and concrete technology - Sustainable building and energy conservation - Housing and planning - Construction management - Optimal design of structuresPlease note that the journal will not accept papers in the area of hydraulic or geotechnical engineering, traffic/transportation or road making engineering, and on materials relevant to non-structural buildings, e.g. materials for road making and asphalt. Although the journal will publish authoritative papers on theoretical and experimental research works and advanced applications, it may also feature, when appropriate: a) tutorial survey type papers reviewing some fields of civil engineering; b) short communications and research notes; c) book reviews and conference announcements.
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