Search results for " Nitinol"

showing 2 items of 2 documents

Multi-objective optimization of nitinol stent design.

2017

Nitinol stents continuously experience loadings due to pulsatile pressure, thus a given stent design should possess an adequate fatigue strength and, at the same time, it should guarantee a sufficient vessel scaffolding. The present study proposes an optimization framework aiming at increasing the fatigue life reducing the maximum strut strain along the structure through a local modification of the strut profile.The adopted computational framework relies on nonlinear structural finite element analysis combined with a Multi Objective Genetic Algorithm, based on Kriging response surfaces. In particular, such an approach is used to investigate the design optimization of planar stent cell.The r…

EngineeringCompressive Strengthmedicine.medical_treatment02 engineering and technology030204 cardiovascular system & hematologycomputer.software_genreMulti-objective optimization0302 clinical medicineStentComputer Aided DesignFatigueSafety factorStructural engineeringEquipment DesignFatigue limitFinite element methodsurgical procedures operativeComputer-Aided DesignStentsAlgorithms0206 medical engineeringFinite Element AnalysisBiophysicsBiomedical EngineeringFatigue; Multi-objective optimization; Nitinol; Stent; Structural finite element analysis; Tapered strut; Biophysics; Biomedical Engineering03 medical and health sciencesBlood vessel prosthesisElastic ModulusTensile StrengthGenetic algorithmmedicineAlloysPressureComputer Simulationcardiovascular diseasesbusiness.industryStentStructural finite element analysiNitinolModels Theoreticalequipment and supplies020601 biomedical engineeringTapered strutBlood Vessel ProsthesisMulti-objective optimizationEquipment Failure AnalysisBiophysicStress MechanicalbusinesscomputerMedical engineeringphysics
researchProduct

Investigation of the Thermomechanical Response of Cyclically Loaded NiTi Alloys by Means of Temperature Frequency Domain Analyses

2021

Nickel–Titanium (NiTi) shape memory alloys subjected to cyclic loading exhibit reversible temperature changes whose modulation is correlated with the applied load. This reveals the presence of reversible thermomechanical heat sources activated by the applied stresses. One such source is the elastocaloric effect, accounting for the latent heat of Austenite–Martensite phase transformation. It is, however, observed that when the amplitude of cyclic loads is not sufficient to activate or further propagate this phase transformation, the material still exhibits a strong cyclic temperature modulation. The present work investigates the thermomechanical behaviour of NiTi under such low-amplitude cyc…

TechnologyMicroscopyQC120-168.85shape memory alloys; Nitinol; super-elasticity; Thermoelastic Stress Analysis; Digital Image Correlation; thermomechanical couplingsTQH201-278.5shape memory alloysNitinolEngineering (General). Civil engineering (General)thermomechanical couplingsArticleTK1-9971Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineDescriptive and experimental mechanicsDigital Image Correlation Nitinol Shape memory alloys Super-elasticity Thermoelastic Stress Analysis Thermomechanical couplingsDigital Image CorrelationThermoelastic Stress Analysissuper-elasticityGeneral Materials ScienceElectrical engineering. Electronics. Nuclear engineeringTA1-2040Materials
researchProduct