Study on the Cracking Mechanism of Arch Foot of CFST Tied Arch Bridge Based on Multiscale Numerical Simulation

Abstract: In order to study the causes of arch foot cracking, a multiscale numerical simulation method was used to establish the finite element model of Xizha Bridge during the construction stage of the Xiaoqing River restoration project in Jinan by using Midas Civil, and the internal forces under adverse conditions were extracted. On this basis, Abaqus was used to establish the local model of arch foot, and the plastic damage model parameters were introduced to conduct stress analysis. The results show that the anchora… Show more

“…As a result of the review of studies, it appears that most studies conducted so far on the effect of spherical graphite parameters on the mechanical properties of cast irons have utilized experimental tests. Finite element models have been rarely employed in prediction the mechanical behavior of structures [30][31][32]. In this study, a micromechanical model will be used for the first time to investigate the effects of graphite phase parameters on the mechanical properties of ductile irons.…”

Mechanical properties prediction of ductile iron with spherical graphite using multi-scale finite element model

“…As a result of the review of studies, it appears that most studies conducted so far on the effect of spherical graphite parameters on the mechanical properties of cast irons have utilized experimental tests. Finite element models have been rarely employed in prediction the mechanical behavior of structures [30][31][32]. In this study, a micromechanical model will be used for the first time to investigate the effects of graphite phase parameters on the mechanical properties of ductile irons.…”

Mechanical properties prediction of ductile iron with spherical graphite using multi-scale finite element model

A modified lateral column lengthening for the treatment of flexible flatfoot: From clinical applications to finite element analysis