Search results for "Structural Optimization"

showing 9 items of 9 documents

Firefly Algorithm for Structural Optimization Using ANSYS

2021

In the mid-1980s, several metaheuristic methods began to be developed for solving a very large class of computational problems with the aim of obtaining more robust and efficient procedures. Among them, many metaheuristic methods use bio-inspired intelligent algorithms. In recent years, these methods are becoming increasingly important and they can be used in various subject areas for solving complex problems. Firefly Algorithm is a nature-inspired optimization algorithm proposed by Yang to solve multimodal optimization problems. In particular, the method is inspired by the nature of fireflies to emit a light signal to attract other individuals of this species. In this work, a numerical stu…

ANSYSComputer scienceFinite element analysiFirefly AlgorithmFirefly algorithmSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeAlgorithmStructural optimization
researchProduct

Time optimal control of a satellite with two rotors

2001

International audience; The aim of this work is to investigate the structure of time-optimal trajectories for a control system modelizing a satellite with two rotors attached along its two fixed axes. Our results extend to the general case those obtained by Sussmann and Tang in an unpublished paper where they treat a particular case described below. We end up finding a sufficient family of four parameters trajectory types. The main tools used are the Pontryagin Maximum Principle, switching functions and envelope theory. © 2001 EUCA.

Engineeringbusiness.industry010102 general mathematicsWork (physics)Control (management)Structure (category theory)[MATH] Mathematics [math]Time optimal01 natural sciencesStructural optimizationControl theoryTime optimal trajectoryControl systemEnvelope theoryTrajectorySatelliteTime optimal control0101 mathematics[MATH]Mathematics [math]businessEnvelope (motion)
researchProduct

A new ESO-based method to find the optimal topology of structures subject to multiple load conditions

2014

In the field of topology optimization problems, the Evolutionary Structural Optimization (ESO) method is one of the most popular and easy to use. When dealing with problems of reasonable difficulty, the ESO method is able to give very good results in reduced times and with a limited request of computational resources. Generally, main applications of this method are addressed to the definition of the optimal topology of a component subjected to a single load condition.In this work, a new methodology, based on the ESO approach, is introduced for the study of the optimal topology of a component subjected to multiple load conditions. The new procedure, entirely developed in the APDL programming…

FEMEngineering (all)Evolutionary structural optimizationTopology optimizationNumerical method
researchProduct

LRPH device optimization for axial and shear stresses

2020

The paper concerns an in-depth study of a special connection for steel structures and the formulation of the related optimal design problem. The connection is called Limited Resistance Rigid Perfectly Plastic Hinge (LRPH) and it represents an innovative device devoted to join steel beam elements of frame structures. The device consists in a sequence of steel cross sections constituted by two parallel flanges with suitably different thickness connected by as many webs with constant and equal thickness. The fundamental innovation of the device is the possibility of designing special connections with elastic stiffness and limit strength independent of each other. Such a special characteristic …

Materials scienceSteel connectionsOptimal shapeComputational MechanicsBuilding and ConstructionStructural optimizationEquivalent stiffnessInnovative deviceShear (geology)Mechanics of MaterialsArchitectureComposite materialLimited strengthSafety Risk Reliability and QualityCivil and Structural Engineering
researchProduct

DESIGN AND OPTIMIZATION OF A CHASSIS FOR A FORMULA SAE RACE CAR

2009

In this paper, the design process of a new chassis for a Formula SAE car is presented. The chassis is undoubtedly one of the most important parts of the car, both for the influence that it has on the vehicle dynamic behaviour, and because it is the main component that assures the driver safety. The new designed chassis is composed of many structural tubular bars and has been equipped with systems for the joining of all the auxiliary members. After the definition of the masses distribution and the choice of the main dimensions, preliminary CAD and FEM models have been carried out for the evaluation of the structural behaviour of this kind of vehicle. Successively, in order maximizing the tor…

Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineFormula SAE Structural optimization FEM analyses
researchProduct

Optimization of laminated composites plates using glowworm algorithm

2010

Structural Optimization Composites GlowwormSettore ICAR/08 - Scienza Delle Costruzioni
researchProduct

NASH EVOLUTIONARY ALGORITHMS: TESTING PROBLEM SIZE IN RECONSTRUCTION PROBLEMS IN FRAME STRUCTURES

2016

The use of evolutionary algorithms has been enhanced in recent years for solving real engineering problems, where the requirements of intense computational calculations are needed, especially when computational engineering simulations are involved (use of finite element method, boundary element method, etc). The coupling of game-theory concepts in evolutionary algorithms has been a recent line of research which could enhance the efficiency of the optimum design procedure and the quality of the design solutions achieved. They have been applied in several fields of engineering and sciences, mainly, in aeronautical and structural engineering (e.g: in computational fluid dynamics and solid mech…

frame optimizationFrame (networking)Evolutionary algorithmgame strategiesstructural optimizationrakennesuunnitteluevolutionary algorithmsAlgorithmNash equilibriumMathematicsProceedings of the VII European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2016)
researchProduct

STRUCTURAL OPTIMIZATION AND STRUCTURAL ANALYSIS OF COMPOSITE MATERIAL PANEL FOR NAVAL USE

2008

The purpose of the work is the realization of a composite material with long glass fibers having better characteristic than a fiber random composite, to permit the reduction of weight and costs to shipyards for pleasure craft. Structural optimization is performed by ANSYS for the choice of the layers disposition to obtain the maximum stiffness with minimum material employment, saving weight. The study is centered on the research of the better configurations of plies packing in relation of pure shear stress for four different plies. Unidirectional plies, both symmetric orthotropic and symmetric non-orthotropic ones, are realized successively by the vacuum bag technique. Experimental tests of…

random composite composite material test structural optimization
researchProduct

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
researchProduct