Material Characterization and Stress-State-Dependent Failure Criteria of AASHTO M180 Guardrail Steel: Experimental and Numerical Investigation
Qusai A. Alomari, Tewodros Y. Yosef, Robert W. Bielenberg, Ronald K. Faller, Mehrdad Negahban, Zesheng Zhang, Wenlong Li, Brandt M. Humphrey

TL;DR
This paper improves the simulation of guardrail steel failure by developing new material models and stress-state-dependent criteria to enhance roadside safety.
Contribution
The study introduces stress-state-dependent failure criteria and advanced material modeling techniques for AASHTO M-180 guardrail steel.
Findings
Extensive experimental testing identified material properties and constructed a failure surface for guardrail steel.
The GISSMO model and LS-DYNA simulations accurately predicted material behavior under various stress states.
A parametric study validated the robustness and reliability of the proposed models.
Abstract
As a key roadside safety feature, longitudinal guardrail steel barriers are purposefully designed to contain and redirect errant vehicles to prevent roadway departure, dissipate impact energy through plastic deformation, and reduce the severity of vehicle crashes. Nevertheless, these systems should be carefully designed and assessed, as localized rupturing, especially near splice or impact locations, can lead to catastrophic failures, compromising vehicle containment, violating crash safety standards, and ultimately jeopardizing the safety of occupants and other road users. Before conducting full-scale crash testing, finite element analysis (FEA) tools are widely employed to evaluate the design efficiency, optimize system configurations, and preemptively identify potential failure modes prior to expensive physical crash testing. To accurately assess system behavior, calibrated material…
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Taxonomy
TopicsHigh-Velocity Impact and Material Behavior · Transportation Safety and Impact Analysis · Structural Response to Dynamic Loads
