Tests and model calibration of high‐strength steel tubular beam‐to‐column and column‐base composite joints for moment‐resisting structures

Pucinotti, Raffaele; Tondini, Nicola; Zanon, Gabriele; Bursi, Oreste S.

doi:10.1002/eqe.2547

Cited by 17 publications

(8 citation statements)

References 25 publications

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“…Modern design codes give the possibility to apply design methodologies assisted by testing (Pucinotti et al, 2015); in fact, EN1990 (Section Comparisons and Annex D) and EN1993-1-3 (CEN, 2002(CEN, , 2006 contain specific rules and guidance to the design assisted by testing. In the current case study, before the devices' installation, an accurate analysis of seismic behavior and the matching of functional curves with the design assumptions were conducted.…”

Section: Step 1: Design Assisted By Testingmentioning

confidence: 99%

“…Moreover, the following parameters were assigned: Figure 6 shows the force-velocity relationship for the OP 300/175 and OTP50/300 devices; in the same figure, the comparison between theoretical and experimental constitutive law for these devices (OP and OTP) is presented. Moreover, in order to obtain further control of the results and to provide useful information on the seismic behavior, both Incremental Dynamic Analyses (IDA) and Linear Modal Analyses (LMA) were carried out (Pucinotti et al, 2015). The non-linear dynamic analysis outcomes were compared with those from the modal analysis that used a design response spectrum, in order to analyze the differences in terms of global shear force at the base of the structures.…”

Section: Viaduct Modeling and Analysismentioning

confidence: 99%

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Multi-Span Steel–Concrete Bridges With Anti-seismic Devices: A Case Study

Pucinotti

Fiordaliso

2019

Front. Built Environ.

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Section: Step 1: Design Assisted By Testingmentioning

confidence: 99%

Section: Viaduct Modeling and Analysismentioning

confidence: 99%

Multi-Span Steel–Concrete Bridges With Anti-seismic Devices: A Case Study

Pucinotti

Fiordaliso

2019

Front. Built Environ.

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“…Thus, the buckling reduction coefficient at elevated temperature χfi.θ was determined according to Eq. (2).…”

Section: Preliminary Parametric Analysismentioning

confidence: 99%

“…in steel braced frames, or when the columns are stocky [1]. Moreover, in moderate seismic-prone regions, columns in moment-resisting frames (MRFs) designed in HSS and beams in mild steel can represent an effective solution when the limitation of lateral displacements is not dominant [2]. Circular columns are suitable in structures subjected to loading in multiple directions, like welded steel frames, because of uniform geometrical characteristics along all crosssectional directions.…”

Section: Introductionmentioning

confidence: 99%

10.07: Numerical analysis of the fire resistance of high‐strength steel circular columns

Tondini

Demonceau

2017

ce papers

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High strength steels (HSS) have specific chemical compositions, which primarily depend on rolling tempering techniques, element thickness and the producer. Nonetheless, EN1993-1-12 related to HSS up to S700 grade does not provide any additional note on the design of steel structures subjected to fire and the designer is referred to EN1993-1-2 valid up to S460 grade. This paper presents the results of a numerical analysis on the behaviour at elevated temperature of Circular Hollow Sections (CHS) columns made of HSS. In details, three full-scale HSS CHS columns with average measured yield strength of 822 MPa and 3.15 m long were tested under the standard ISO fire with constant eccentric compression load. Two members were made of a cross section 323.9 mm x 10 mm and one of a cross section 355.6 mm x 12 mm. The constant applied loads during the tests were respectively equal to 10%, 14% and 19% of the axial capacity of the columns at ambient temperature. Then, a nonlinear thermomechanical finite element model made of solid elements was developed by means of ABAQUS. A fully-coupled analysis using Geometrically and Materially Nonlinear Imperfect Analysis (GMNIA) was employed meaning that the temperature field was determined together with the stress-displacement fields. The calibration of the numerical model was carried out against experimental data by exploiting the thermal and the mechanical properties of steel provided in EN1993-1-2. A sensitivity analysis was performed to highlight the main parameters that affect the simulation results, i.e. mesh size, residual stresses, geometrical imperfections etc. The calibration process showed a good agreement between the numerical results and the experimental outcomes both in terms of failure temperature and of failure mode. With the calibrated model, it was finally possible to perform a preliminary parametric analysis by varying the applied load and the column relative slenderness to assess the appropriateness of the buckling curve included in EN1993-1-2 to predict the fire resistance of HSS CHS columns.

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“…The load demand on foundations can also be reduced by using a lighter superstructure constructed of HSS members. The attractiveness of HSS construction has stimulated research on HSS material properties [17][18][19][20], HSS-based connections/components [21][22][23][24],…”

Section: Introductionmentioning

confidence: 99%