The Influence of Skew Angles on Prestressed Bridges
Authors/Creators
- 1. Department of Civil Engineering, Saraswati College of Engineering, Kharghar (Maharashtra), India
- 1. Department of Civil Engineering, Saraswati College of Engineering, Kharghar (Maharashtra), India
Description
Abstract: Prestressed concrete bridges are crucial in modern infrastructure due to their high durability, low maintenance requirements, and superior load-carrying capacity. However, skew bridges, which feature a non-perpendicular alignment with traffic flow, pose significant challenges in analysis and design. This study presents a comprehensive parametric investigation into the behaviour of prestressed skew bridges to enhance structural understanding and optimize design strategies. Advanced finite element techniques are utilized to analyse the effects of prestressing forces, material properties, and geometric parameters on skew bridges. The study evaluates key structural responses, including bending moments, shear forces, torsional effects, and deflections, under various loading conditions such as dead loads, moving loads, and prestressing loads, considering relevant IRC load combinations, including seismic effects. This research analyses fifteen prestressed skew bridge models with varying spans and skew angles between 20° and 50° using MIDAS Civil software. Comparative results highlight the influence of skew angles on structural performance. The findings suggest increased skewness significantly impacts torsional behaviour and bending moment distribution. With advancements in computational tools, precise estimation of structural responses is now possible, providing engineers with better insight into the design and analysis of prestressed skew bridges.
Files
A824014010525.pdf
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Additional details
Identifiers
- EISSN
- 2277-3878
- DOI
- 10.35940/ijrte.A8240.14010525
Dates
- Accepted
-
2025-05-15Manuscript received on 23 April 2025 | First Revised Manuscript received on 27 April 2025 | Second Revised Manuscript received on 06 May 2025 | Manuscript Accepted on 15 May 2025 | Manuscript published on 30 May 2025
References
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