Head-on and angular impact-based investigation of mechanical behavior of guardrail post types with finite element analysis

Özcanan, Sedat

doi:10.1177/09544062231179990

Proceedings of the Institution of Mechanical Engineers, Part C:

2023

DOI: 10.1177/09544062231179990

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Head-on and angular impact-based investigation of mechanical behavior of guardrail post types with finite element analysis

Sedat Özcanan

Abstract: The geometric sections of guardrail systems that provide roadside safety are important in terms of their safety and structural performance. Guardrail systems generally consist of posts and beam. One of the critical components that affect the performance of steel guardrail systems is the post. Many different types of posts are used in practice. In this sense, the mechanical performance of the most commonly used S-C-I-Z-rectangular-circular post types in this study was investigated and compared on the basis of t… Show more

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2024

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Cited by 1 publication

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Impact Angle-Based Section Design and Optimization of the C Post in Order to Improve the Safety and Structural Performance of Guardrails

Ozcanan,

Özcan

2024

tjce

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This study focuses on enhancing the performance of the C post in H1 containment-level guardrail systems by optimizing its design to better withstand angular impacts, common in roadside safety applications. Since the post plays a crucial role in transferring impact loads to the ground, modifications were made by adjusting the angle of the post edge that aligns with the impact direction, while keeping the perpendicular side constant. Two key test angles from EN1317 standards were used: a 20-degree angle (TB11) to assess safety metrics like the Acceleration Severity Index (ASI) and theoretical Head Impact Velocity (THIV), and a 15-degree angle (TB42) to evaluate structural performance, including working width and exit angle. Finite element modelling in LS-DYNA, followed by model validation and calibration, showed that aligning the C post angle more closely with crash angles improved both safety and structural integrity, resulting in a transition of the C post design toward a Z post shape with enhanced rigidity and performance.

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Impact Angle-Based Section Design and Optimization of the C Post in Order to Improve the Safety and Structural Performance of Guardrails

Ozcanan,

Özcan

2024

tjce

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show abstract

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Head-on and angular impact-based investigation of mechanical behavior of guardrail post types with finite element analysis

Cited by 1 publication

References 27 publications

Impact Angle-Based Section Design and Optimization of the C Post in Order to Improve the Safety and Structural Performance of Guardrails

Impact Angle-Based Section Design and Optimization of the C Post in Order to Improve the Safety and Structural Performance of Guardrails

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