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Optimal Design of Steel–Concrete Composite Beams Strengthened under Load

Piotr Szewczyk, Maciej Szumigała

2021Materials17 citationsDOIOpen Access PDF

Abstract

This paper presents results of numerical analysis and experimental research on strengthening of steel-concrete composite beams. Studied members consisted of IPE200 I-beam and 90 × 700 mm reinforced concrete slab. The steel part of the section was strengthened by welding additional steel plates at the bottom. The study was performed for plate thickness ranging between 6 to 22 mm. Spatial FEM models were developed to account for material and geometric nonlinearities and for stress and post-welding strain. Proposed numerical models were experimentally validated. One aim was to find an optimum solution which would minimize cost and maximize bending capacity. To achieve this, energy parameters available in numerical simulations were reviewed and analyzed. Recoverable strain energy value determined in Abaqus was used to find the optimum solution.

Topics & Concepts

Materials scienceWeldingStructural engineeringSlabFinite element methodBendingBeam (structure)Composite numberNumerical analysisComposite materialStress (linguistics)EngineeringMathematicsMathematical analysisPhilosophyLinguisticsStructural Load-Bearing AnalysisStructural Behavior of Reinforced ConcreteFire effects on concrete materials
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