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Main Authors: Hernandez-Martinez, Alejandro, Garcia-Soto, Adrian D., Valdes-Vazquez, Jesus G.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.18825
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author Hernandez-Martinez, Alejandro
Garcia-Soto, Adrian D.
Valdes-Vazquez, Jesus G.
author_facet Hernandez-Martinez, Alejandro
Garcia-Soto, Adrian D.
Valdes-Vazquez, Jesus G.
contents The present paper assesses the efficacy of code live-load models in accurately estimating the vehicular loads transferred to bridge substructures, such as abutments, piers, and foundations. Realistic traffic vehicle data are represented using four Weigh-in-Motion databases, which provide an authentic representation of vehicle information, thus providing a realistic basis for the examination of the bridges studied. The evaluation includes various bridge models, such as single-span girder bridges and two-, three-, and four-span continuous pinned-support girder bridges. By analyzing exceedance rates, the study compares the extreme force values obtained for vehicles in the databases with those predicted by selected code live-load models. These exceedance rates are presented in spectra format, as a function of the span length. The significant variations observed in the exceedance rates highlight the need for improving existing code live-load models to achieve more accurate estimations of the forces transferred to bridge substructures. Such improvements would lead to more uniform reliability levels for any limit state, such as resistance, fatigue, serviceability, and cracking.
format Preprint
id arxiv_https___arxiv_org_abs_2403_18825
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Numerical evaluation of code live-load models for estimating the forces caused by actual vehicles that act on bridge substructures
Hernandez-Martinez, Alejandro
Garcia-Soto, Adrian D.
Valdes-Vazquez, Jesus G.
Computational Engineering, Finance, and Science
The present paper assesses the efficacy of code live-load models in accurately estimating the vehicular loads transferred to bridge substructures, such as abutments, piers, and foundations. Realistic traffic vehicle data are represented using four Weigh-in-Motion databases, which provide an authentic representation of vehicle information, thus providing a realistic basis for the examination of the bridges studied. The evaluation includes various bridge models, such as single-span girder bridges and two-, three-, and four-span continuous pinned-support girder bridges. By analyzing exceedance rates, the study compares the extreme force values obtained for vehicles in the databases with those predicted by selected code live-load models. These exceedance rates are presented in spectra format, as a function of the span length. The significant variations observed in the exceedance rates highlight the need for improving existing code live-load models to achieve more accurate estimations of the forces transferred to bridge substructures. Such improvements would lead to more uniform reliability levels for any limit state, such as resistance, fatigue, serviceability, and cracking.
title Numerical evaluation of code live-load models for estimating the forces caused by actual vehicles that act on bridge substructures
topic Computational Engineering, Finance, and Science
url https://arxiv.org/abs/2403.18825