Performance Evaluation of a Medium-Rise RCC Structure Designed Using STAAD.Pro and IS Standards

Prakhar Singh

doi:10.52228/JRUB.2026-39-1-2

Journal of Ravishankar University

Pt. Ravishankar Shukla University, Raipur, Chhattisgarh

PART-B

(SCIENCE)

ISSN: 0970-5910

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Performance Evaluation of a Medium-Rise RCC Structure Designed Using STAAD.Pro and IS Standards

Author(s): Prakhar Singh

Email(s): Email ID Not Available

Address: Department of Civil Engineering, National Institute of Technology Raipur, Chhattisgarh, India

Corresponding Author: prakharsinghk5@gmail.com

Published In: Volume - 39, Issue - 1, Year - 2026

DOI: 10.52228/JRUB.2026-39-1-2

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ABSTRACT:
The study focuses on the modelling, structural analysis, and design of a five-storey reinforced concrete (RC) framed building using STAAD.Pro software in accordance with IS 456:2000 design provisions. The building considered in this research has a square plan of 12 m × 12 m, subdivided into four bays in each horizontal direction, with a uniform bay spacing of 4 m and a total structure height of 15 m, consisting of five floors with 3 m floor-to-floor height. The modelling process includes defining structural geometry, assigning material properties, specifying section dimensions for beams and columns, creating slab elements, and defining fixed base support conditions representing realistic foundation restraint. Load cases were applied based on structural design standards, including self-weight as dead load, a distributed live load of 3 kN/m² on all intermediate floors, and a roof live load of 1.2 kN/m² acting on the top slab. Appropriate load combinations were generated and analyzed to determine internal forces, displacements, bending moments, shear values, axial forces, and support reactions. The analysis was conducted using the displacement-based finite element method built into STAAD.Pro, ensuring accurate stiffness simulation and load transfer through the slab-beam-column system. Post-processing visualization tools enabled detailed review of bending moment and shear force diagrams, slab stress contours, and nodal displacement patterns to evaluate overall performance under loading. The design was carried out using the limit state method with M30 concrete and Fe550 reinforcement, ensuring structural safety and serviceability. Beam and column reinforcement was calculated based on flexural and shear demands, while slab reinforcement was determined using two-way slab design principles and plate stress outputs. The foundation design selected was isolated footing, sized through reaction forces to ensure safe soil pressure limits, stability against sliding and overturning, and proper reinforcement detailing was applied.

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Cite this article:
Singh (2026). Performance Evaluation of a Medium-Rise RCC Structure Designed Using STAAD.Pro and IS Standards. Journal of Ravishankar University (Part-B: Science), 39(1), pp. 28-45. DOI:https://doi.org/10.52228/JRUB.2026-39-1-2

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