Search results for "Stiffness"

showing 10 items of 524 documents

Can biomechanical analysis shed some light on aneurysmal pathophysiology? Preliminary study on ex vivo cerebral arterial walls

2019

Abstract Background The pathophysiology of cerebral aneurysm is complex and poorly understood, and it can have the most catastrophic clinical presentation. Flow dynamics is a key player in the initiation and progression of aneurysm. Better understanding the interaction between hemodynamic loading and biomechanical wall responses can help to add the missing piece on aneurysmal pathophysiology. In this laboratory study we aimed to analyze the effect of the application of a mechanical force to cerebral arterial walls. Methods Displacement control tests were performed on five porcine cerebral arteries. The test machine was the T150 Nanotensile. The stiffness variation with the increment of the …

Materials scienceSwineCerebral arteriesBiophysicsHemodynamicsStrain (injury)Weight-BearingStress (mechanics)03 medical and health sciences0302 clinical medicineAneurysmmedicineAnimalsHumansOrthopedics and Sports MedicineAortaMechanical PhenomenaHemodynamicsStiffnessIntracranial AneurysmArteries030229 sport sciencesmedicine.diseaseBiomechanical analysis Flow dynamics Cerebral aneurysm Cerebral arterial wallsPathophysiologyBiomechanical PhenomenaHyperelastic materialAnisotropyStress Mechanicalmedicine.symptom030217 neurology & neurosurgeryBiomedical engineering
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Random short sisal fiber biocomposites: Optimal manufacturing process and reliable theoretical models

2018

Although several works have been published in literature on agave fibers and their biocomposites, accurate information about the choice of both the fibers and the manufacturing processes that allow the user to optimize the biocomposites properties in terms of strength and stiffness are not yet available; also, no theoretical models that can be used for an accurate evaluation of the mechanical properties of these biocomposites, are reported.To this aim, the present work intends to give a contribution by considering green epoxy biocomposites reinforced by both short and discontinuous sisal agave fibers arranged in proper MAT-type fabrics. In particular, an optimized manufacturing process that…

Materials scienceTheoretical models02 engineering and technology010402 general chemistryEco-friendly matrix01 natural sciencesSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineUltimate tensile strengthlcsh:TA401-492medicineGeneral Materials ScienceFiberComposite materialSisal fiberSISALcomputer.programming_languageManufacturing processMechanical EngineeringStiffnessEpoxy021001 nanoscience & nanotechnologyNatural fiber0104 chemical sciencesMechanics of Materialsvisual_artvisual_art.visual_art_mediumlcsh:Materials of engineering and construction. Mechanics of materialsmedicine.symptom0210 nano-technologyBiocompositecomputerSisal fiberMaterials & Design
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Mechanical Behaviour of a Green Sandwich Made of Flax Reinforced Polymer Facings and Cork Core

2015

Abstract This work investigates the flexural behavior of a composite sandwich made of flax fibers reinforced skin facings and an agglomerated cork core, to be employed as an eco-friendly solution for the making of structural components of small sailing boats. An experimental mechanical characterization of the strength and stiffness flexural behavior of the proposed sandwich is carried out, providing a comparison of performances from three implemented assembling techniques: hand-lay-up, vacuum bagging and resin infusion. Sandwich beams have been tested under three point bending (TPB) at various span lengths. A procedure is also proposed and implemented to consider the potential influence of …

Materials scienceThree point flexural testComposite numberCorkengineering.materialSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineEngineering (all)Flexural strengthIndentationmedicineWinkler foundationLong Flax FibreComposite materialSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeComposite SandwichAgglomerated Cork CoreEngineering(all)business.industryWinkler foundation.StiffnessFlexural rigidityGeneral MedicineStructural engineeringFlexural BehaviourengineeringLong Flax FibresIndentationmedicine.symptombusinessBeam (structure)Procedia Engineering
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Assessment of conduit artery vasomotion using photoplethysmography

2013

Vasomotion is a spontaneous oscillation of vascular tone. The phenomenon has been observed in small arterioles and capillaries as well as in the large conduit arteries. The layer of smooth muscle cells that surrounds a blood vessel can spontaneously and periodically change its tension and thereby the arterial wall stiffness also changes. As the understanding of the phenomenon is still rather obscure, researchers would benefit from a low-cost and reliable investigation technique such as photoplethysmography (PPG). PPG is an optical blood pulsation measurement technique that can offer substantial information about the arterial stiffness. The aims of this pilot study were to evaluate the usefu…

Materials scienceVasomotionAnatomymedicine.diseasePosterior tibial arteryBlood pressuremedicine.anatomical_structuremedicine.arteryPhotoplethysmogrammedicineArterial stiffnessPulse wave velocityBlood vesselArteryBiomedical engineeringSPIE Proceedings
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23.1: Invited Paper: Models and Experiments of Mechanical Integrity for Flexible Displays

2008

Flexible displays present a challenging problem in terms of mechanical integrity, a result of the considerable hygro-thermo-mechanical contrast between the inorganic, brittle device layers and the compliant polymer substrates. This paper reviews the main approaches to study and identify the key factors, which control the mechanical stability of this class of displays. Focus is put on the analyses of residual stress and damage under tensile loading. Novel electro-mechanical methods are used for accurate insight into critical phenomena. An important result is that the thickness and stiffness of the substrate control the critical strain for failure of the device layers.

Materials sciencebusiness.industryCritical phenomenaMechanical integrityStiffnessStructural engineeringSubstrate (printing)BrittlenessResidual stressFlexible displayUltimate tensile strengthmedicinemedicine.symptombusinessSID Symposium Digest of Technical Papers
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Deformation-Free Topography from Combined Scanning Force and Tunnelling Experiments

1993

We show that by measuring force and stiffness on a constant-current scanning tunnelling microscopy (STM) contour a deformation-free topography can be extracted. With reference to mono- and bicomponent self-assembled monolayers, we find that the characteristic depression pattern and the protrusions on a multicomponent film found in STM are to a great extent due to electronic effects.

Materials sciencebusiness.industryELECTRON MICROSCOPY DETERMINATIONS (INC SCANNING TUNNELING MICROSCOPYMECHANICAL ANDGeneral Physics and AstronomyStiffnessSOLID-SOLID INTERFACES (INC BICRYSTALS)Deformation (meteorology)METHODS)law.inventionOpticslawMicroscopyMonolayermedicineACOUSTICAL PROPERTIES OF SOLID SURFACES AND INTERFACESThin filmComposite materialScanning tunneling microscopemedicine.symptombusinessQuantum tunnellingEurophysics Letters (EPL)
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Analytical modelling of force transmission in axially loaded RC columns with indirectly loaded jackets

2019

Abstract Concrete and steel jacketing are common strengthening techniques for reinforced concrete (RC) columns subjected to axial loads. In the most of cases the external jacket is made leaving gaps between the strengthening layer and the slabs, avoiding to carry directly a portion of the load. In this way, the external jacket induces a confinement pressure on the inner column, and its beneficial effect is due to the increase of strength and ductility. However, shear stresses develop on the interface between the column and consequently, the external jacket can be considered indirectly loaded. It sustains a portion of the axial load, which depends by the value of the axial shortening, relati…

Materials sciencebusiness.industryLinear elasticityCompression0211 other engineering and technologiesStiffness020101 civil engineeringIndirectly loaded02 engineering and technologyStructural engineeringInterfaceCompression (physics)Finite element methodRetrofit0201 civil engineeringShear (sheet metal)021105 building & constructionmedicineJacketingSlippagemedicine.symptombusinessDuctilityAxial symmetryCivil and Structural EngineeringEngineering Structures
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On the flexural vibrations of sandwich plates

1995

A simplified approach to sandwich plate free vibrations, based on the superposition method, can provide approximations to the lowest modes for various boundary conditions, showing a characteristic influence of the bending-shear stiffness ratio.

Materials sciencebusiness.industryMechanical EngineeringStiffnessStructural engineeringCondensed Matter PhysicsVibrationMechanics of MaterialsmedicineFlexural vibrationBoundary value problemmedicine.symptomSuperposition methodbusinessMeccanica
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Comparison of impact characteristics of four different ice hockey arena dasher boards

2012

During recent years the incidence of ice hockey related concussions has increased. Therefore, the main aim of this study was to determine how dasher board materials and structures affect impact characteristics and thereby concussion risk. The measurements were divided into two parts; 1. physiological characteristics of body checks were determined in real game measurements, and 2. simulation of body checks in the laboratory. Peak forces and stopping distances were determined from the high-speed camera data, and stiffness values were subsequently calculated. Dasher board materials and structures had a clear effect on impact characteristics. Flexible protective shielding material resulted in 1…

Materials sciencebusiness.industryProtective DevicesStiffnessPhysical Therapy Sports Therapy and RehabilitationGeneral MedicineStructural engineeringIce hockeyProtective shieldingHockeyRisk FactorsEnergy absorptionAthletic InjuriesElectromagnetic shieldingmedicineHumansEnvironment DesignOrthopedics and Sports Medicinemedicine.symptomta315businessBrain ConcussionEuropean Journal of Sport Science
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Study of the Formability of Light Metallic Materials

2015

There is a continuing interest in using laminated materials for the production of lightweight parts, the resulting parts having the same functionality and even an increased stiffness and length of operation compared to conventional materials. The present paper aims to study the forming behavior of the laminated materials that requires the unfolding of tests to determine the tensile mechanical properties and the intrinsic properties, determining the forming limit curves by means of the Nakajima test and the analysis of the behavior at unconventional incremental forming.

Materials sciencebusiness.industryUltimate tensile strengthMetallic materialsmedicineFormabilityStiffnessGeneral MedicineStructural engineeringLimit (mathematics)medicine.symptomComposite materialbusinessApplied Mechanics and Materials
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