Search results for "Probabilistic approach"

showing 4 items of 4 documents

Probabilistic Evaluation of the Adaptation Time for Structures under Seismic Loads

2016

Abstract In this paper, a probabilistic approach for the evaluation of the adaptation time for elastic perfectly plastic frames is proposed. The considered load history acting on the structure is defined as a suitable combination of quasi-statical loads and seismic actions. The proposed approach utilizes the Monte Carlo method in order to generate a suitable large number of seismic acceleration histories and for each one the related load combination is defined. Furthermore, for each load combination the related adaptation time is determined, if any, as the optimal one for which the structure is able to shakedown under the unamplified applied actions. A known generalized Ceradini's theorem i…

probabilistic approachEngineeringMonte Carlo methodStructure (category theory)seismic loading020101 civil engineeringProbability density function02 engineering and technology0201 civil engineeringAccelerationEngineering (all)0203 mechanical engineeringAdaptation (computer science)Engineering(all)adaptation time; Dynamic shakedown; probabilistic approach; seismic loading; Engineering (all)Dynamic shakedownbusiness.industrySeismic loadingProbabilistic logicGeneral MedicineStructural engineeringShakedown020303 mechanical engineering & transportsadaptation timebusinessSettore ICAR/08 - Scienza Delle CostruzioniAlgorithm
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Seismic shakedown design of frames based on a probabilistic approach

2014

The present study concerns the optimal design of elastic perfectly plastic structures subjected to a combination of fixed and seismic loads. In particular, plane frames are considered and suitable measures of the beam element cross sections are chosen as design variables. The optimal design is required to behave in a purely elastic manner when subjected just to the fixed load and to have the capability to eventually shakedown when simultaneously subjected to fixed and seismic loads. Due to the natural uncertainness related to the definition of the seismic load history, a new probabilistic approach is proposed, consisting into two subsequent search steps. At first a suitably chosen large num…

Optimal designbusiness.industryPlane (geometry)Seismic loadingProbabilistic logicElastic energyProbabilistic approachStructural engineeringFunction (mathematics)Shakedown behaviour.ShakedownSeismic loadingMinimum volume designbusinessSettore ICAR/08 - Scienza Delle CostruzioniBeam (structure)Mathematics
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Construction sequence analysis of long-span cable-stayed bridges

2018

Abstract In cantilever construction of long-span cable-stayed bridges the stressing sequence of stays is fundamental for establishing the final configuration of the bridge. The structural behaviour of these bridges is usually evaluated through a forward staged construction analysis, in which the values of the prestressing forces to be applied to stays are the main unknowns. A unified procedure for determining the initial cable forces and for analyzing the entire sequence is presented here, considering the geometric nonlinearity of stays through the Dischinger equivalent elastic modulus. The target is the simultaneous determination of the initial cable forces with the simulation of the const…

CantileverComputer science0211 other engineering and technologiesNAPS020101 civil engineering02 engineering and technologyBridge (nautical)0201 civil engineeringDeckStress (mechanics)Effects of uncertainties021105 building & constructionPylonForward analysisCivil and Structural EngineeringSequenceConstruction sequencebusiness.industryProbabilistic logicProbabilistic approachCable-stayed structures; Construction sequence; Effects of uncertainties; Forward analysis; NAPS; Partial scheme; PES; Probabilistic approach; Civil and Structural EngineeringStructural engineeringPESSettore ICAR/09 - Tecnica Delle CostruzioniNonlinear systemPartial schemebusinessCable-stayed structures
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Evaluation of the shakedown limit load multiplier for stochastic seismic actions

2017

A new approach for the evaluation of the shakedown limit load multiplier for structures subjected to a combination of quasi-statically variable loads and seismic actions is presented. The common case of frame structures constituted by elastic perfectly plastic material is considered. The acting load history during the lifetime of the structure will be defined as a suitable combination of never ending quasi-statical loads, variable within an appropriate given domain, and stochastic seismic actions occurring for limited time interval. The proposed approach utilizes the Monte Carlo method in order to generate a suitable large number of seismic acceleration histories and the corresponding shake…

Mathematical optimizationElastic plastic frameMonte Carlo method02 engineering and technologyCondensed Matter Physic01 natural sciences0203 mechanical engineeringQuasi-statical and seismic loadingMechanics of Material0101 mathematicsDynamic shakedownMathematicsbusiness.industryCumulative distribution functionMechanical EngineeringProbabilistic approachStructural engineeringCondensed Matter PhysicsShakedown010101 applied mathematicsMonte Carlo method020303 mechanical engineering & transportsMechanics of MaterialsLimit loadMultiplier (economics)businessSettore ICAR/08 - Scienza Delle Costruzioni
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