Journal of Engineering Analysis and Design

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An examination on RC and steel outlined structures with different floor frameworks is important to assess better basic framework with respect to generally economy, auxiliary execution, transportation cast and development. This investigation will be exceptionally useful in choosing auxiliary framework for multistory mechanical structures. Past examinations to establish that multistory modern structure structures are very little enough. This restricts our capacity in settling on choice about basic arrangement of modern structures. Various kinds of steel and RC structures with various floor frameworks are utilized for multistory structures. Before, workmanship structures were significantly utilized for building development. Presently innovation has created and steel auxiliary frameworks are begun for multistory structures. Presently a day, utilization of workmanship structure is extremely restricted. RC structure is ruling and steel structure is entering slowly for multistory structure structures in India. So, comparative study is required to identify most effective structural system for a particular building. From the comparative study of the two types of structure major findings and conclusions about structural behavior and other structural matters are as follows. When same building is designed as reinforced concrete and steel structure then structural behavior and performance varies widely. The following conclusions are drawn from comparative study of both building, considering lateral drift and vertical deflections; stiffness of RC building is higher than of steel. Considering Shear Force in both the building, both have the same shear capacity as fined. Considering moment in both the building, steel building is showing more moment & we can say that can bear higher moment under permissible limit.

AISC (2011). Design Examples. American Institute of Steel Construction, Chicago, Illinois, United States.

AISC (2005).Specification for Structural Steel Buildings. American Institute of Steel Construction, Chicago, Illinois, United States.

Fisher, J. M., & Kloiber, L. A. (2006). Steel Design Guide 1-Base Plate and Anchor Rod Design. In AISC (pp. 801-06).

Fintel, M. (Ed.). (1974). Handbook of concrete engineering (p. 801). New York: Van Nostrand Reinhold.

Johnson, R. P., & Buckby, R. J. (1994). Composite structures of steel and concrete (Vol. 1). Oxford, UK: Blackwell Scientific.

Murray, T. M., Allen, D. E., & Ungar, E. E. (1997). Floor vibrations due to human activities. American Institute of Steel Construction.

Murray, T. M., & Sumner, E. A. (2003). Extended end-plate moment connections: Seismic and wind applications. American Institute of Steel Construction

Miller, D. K. (2015). Design Guide 21: Welded Connections-A Primer for Engineers (2006). 27(4), 71-71.