Search results for " seismic loading"

showing 6 items of 6 documents

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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On the optimal design of base isolation devices

2013

The paper deals with the optimal design of a base isolation system for a given structure subjected to seismic loads. In particular, an appropriate minimum displacement seismic protection device optimal design formulation is proposed for an assigned elastic perfectly plastic steel frame constrained to behave in conditions of elastic shakedown. The chosen base isolation device is constituted by elastomeric isolators. Suitable combinations of fixed and seismic loads are considered. According to the unrestricted shakedown theory, the seismic input is given as any load history appertaining to a suitably defined seismic load admissibility domain. The relevant dynamic structural response is obtain…

Optimal design seismic loading base isolation devices.Settore ICAR/08 - Scienza Delle Costruzioni
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Analysis and design of elastic plastic structures subjected to dynamic loads

In the last decades, the concept of “optimization” has reached considerable value in many different fields of scientific research and, in particular, it has assumed great importance in the field of structural mechanics. The present study describes and shows the scientific path followed in the three years of doctoral studies. The state of the art concerning the optimization of elastic plastic structures subjected to quasi-static loads was already well established at the beginning of the Ph.D. course. Actually, it was already faced the study of structures subjected to quasi-static cyclic loads able to ensure different structural behaviors in relation to different intensity levels of the appli…

Optimal designElastic perfectly plastic structureSeismic loadingLimited ductilityMinimum volumeBucklingOptimal design; Continuous and discrete variables; Seismic loading; Element Slenderness; Limited ductility; Buckling; P-Delta effects; Minimum volume; Probabilistic dynamic shakedown; Elastic perfectly plastic structures;Continuous and discrete variableElement SlenderneSettore ICAR/08 - Scienza Delle CostruzioniP-Delta effectProbabilistic dynamic shakedown
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Comparison between unrestricted dynamic shakedown design and a new probabilistic approach for structures under seismic loadings

2014

The paper concerns a study related to the comparison between two different approaches utilized for the formulation of an optimal shakedown design problem for elastic plastic frame structures subjected to a combination of fixed and seismic loading. The first formulation utilizes the unrestricted dynamic shakedown theory, while the second one is based on a new probabilistic approach. The comparison is effected in terms of mathematical formulations, in terms of adopted loading models and in terms of numerical results. The performed applications are related to plane steel frames.

optimal design unrestricted dynamic shakedown seismic loadings steel framebusiness.industryComputer scienceProbabilistic logicStructural engineeringSettore ICAR/08 - Scienza Delle CostruzionibusinessShakedown
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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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On the structural optimization in presence of base isolating devices

2012

The minimum volume design of plane frames constituted by elastic perfectly plastic material and subjected to appropriate combinations of fixed, cyclic and dynamic loads is studied. The influence on the design, in terms of cost (volume) and behavioural features, of seismic protecting devices is particularly focused. The considered protecting device is a lead rubber bearing base isolation system. Two optimal design problem formulations are proposed for the structure with or without the protecting device, both based on the so-called statical approach. The minimum volume frame is reached accounting for three different resistance limits: the purely elastic limit, the (elastic) shakedown limit an…

structural optimization seismic loadings isolating devices.Settore ICAR/08 - Scienza Delle Costruzioni
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