Print Email Facebook Twitter Optimization of steel plate girders in bending Title Optimization of steel plate girders in bending: Using FEM-analyses on S690 and S890 steel plate girders Author van Gemeren, Wouter (TU Delft Civil Engineering and Geosciences) Contributor Abspoel, R. (mentor) Veljkovic, M. (graduation committee) Hendriks, M.A.N. (graduation committee) Feijen, Mark (graduation committee) Degree granting institution Delft University of Technology Date 2019-05-29 Abstract A parametric study, using the FEM-software package ABAQUS, validated on experimental results found by Abspoel, was conducted on S690 steel plate girders to address if the results of the previous researches was valid. Using a slightly different analytical model the results show the maximum web slenderness of this steel grade in both 6000 mm2 and 12000mm2 was the same. It was shown that the maximum bending moment was found when the top flange was able to yield, shortly followed by sudden collapse.A new parametric study, to expend the optimizing plate girders using S890 steel was conducted as well to address the usefulness of steels with higher yield strength in plate girders subjected to bending. This study again used the geometry used by Abspoel. The results showed a decrease in maximum web slenderness, but still a significant increase in bending moment capacity compared to the S690 plate girders. It was shown that using an optimized S890 plate girders compared to hot rolled section made also from S890 steel, could reduce the use of steel by more than 80%.After the parametric studies showed increasing capacity, the geometry used to numerically model the plate girders, was critically addressed, using small scale numerical studies using FEM-software. These tests showed that not only the slenderness of the web was a factor in the bending moment capacity of a plate girder, but also the flange geometry plays a significant role. It was shown that increasing the length of the tested part of the girder, the failure mode could change from flange yielding to an instable mode in which the flange rotated around its longitudinal axis, resulting in a much lower bending moment capacity.An extra investigation in using a hybrid steel composition resulted in showing the potential of this optimization. Because by adding lower grade steel, more ductility was shown due to these parts yielding prior to yielding of the compressive flange, resulting in possible safer design. Subject Steel Plate girdersoptimizationbending moment capacityplate bucklingSlender plate girders To reference this document use: http://resolver.tudelft.nl/uuid:45de7f7d-6ebe-4b98-b370-f0b79e08eca8 Part of collection Student theses Document type master thesis Rights © 2019 Wouter van Gemeren Files PDF Master_Thesis_W.v.Gemeren ... 5_2019.pdf 8.63 MB Close viewer /islandora/object/uuid:45de7f7d-6ebe-4b98-b370-f0b79e08eca8/datastream/OBJ/view