Search results for "STRAIN GAUGE"

showing 10 items of 52 documents

Elastic wave propagation in bone in vivo: methodology.

1995

The purpose of this study was to investigate the usefulness of elastic wave propagation (EWP) in estimating the mechanical properties (elasticity) of human tibia. The test group was composed of 78-yr-old women assigned to high (n = 19) and low (n = 17) bone mineral density (BMD) groups as measured at the calcaneus by the 125I-photon absorption method. The EWP apparatus consisted of an impact-producing hammer with a force strain gauge and two accelerometers positioned on the bone. Results for nylon and acrylic were used to calibrate the apparatus. Polyvinyl chloride (PVC) solid rods and tubes of various diameters were used to evaluate the relationship between the elastic wave velocity and cr…

Materials scienceBone densityAccelerationTransducersBiomedical EngineeringBiophysicsAcrylic ResinsSecond moment of areaMineralogylaw.inventionFractures BonelawBone DensityAnimalsHumansOrthopedics and Sports MedicineHammerComposite materialElasticity (economics)Polyvinyl ChlorideStrain gaugeAgedBone mineralTibiaRehabilitationElasticityNylonsCalibrationCattleFemaleTomographyCalcaneusStress MechanicalTomography X-Ray ComputedAlgorithmsJournal of biomechanics
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The Reinforcement Effect of Strain Gauges Embedded in Low Modulus Material

2013

The reinforcement effect of electrical resistance strain gauges is well-described in the literature, especially for strain gauges installed on surface. This paper considers the local reinforcement effect of strain gauges embedded within low Young modulus materials. In particular, by using a simple theoretical model, already used for strain gauges installed on the surface, it proposes a simple formula that allows the user to evaluate the local reinforcement effect of a generic strain gauge embedded on plastics, polymer composites, etc. The theoretical analysis has been integrated by numerical and experimental analyses, which confirmed the reliability of the proposed model.

Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di Macchineelectrical resistance strain gauges embedded strain gauges experimental mechanics reinforcement effect
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Wireless strain gauge network — Best-hall measurement case

2014

Wireless sensor networks can be used to perform structural monitoring. Strain gauges, which can be glued on or integrated to the observed material, are the most common nondestructive sensing elements for measuring surface strain. Wireless strain gauge measurement system makes strain measurements more flexible while opening new targets of application in addition to those that traditional wired strain measuring systems can offer. We have implemented a long term strain measurement in a PVC-covered hall using wireless sensor network. In this paper we evaluate the functionality and suitability of the developed wireless system for this kind of monitoring. The paper discusses the experiences gaine…

Computer sciencebusiness.industryReliability (computer networking)System of measurementCalibrationElectronic engineeringWirelessEnergy consumptionbusinessTelecommunicationsTemperature measurementWireless sensor networkStrain gauge2014 IEEE Ninth International Conference on Intelligent Sensors, Sensor Networks and Information Processing (ISSNIP)
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Strain Measurement on Composites: Effects due to Strain Gauge Misalignment

2008

:  The present work analyses the errors affecting the strains measured by misaligned strain gauges installed on orthotropic-composite laminae. Various analytical relationships are derived showing that, besides the fibre and strain gauge orientations, the misalignment error in unidirectional off-axis orthotropic composite samples depends also on the lamina stiffness properties (E1, E2, ν12, G12). If the fibres are aligned with the loading axis, it is found that the higher Poisson's ratio ν12 is the only elastic property influencing the misalignment error. Experimental results are shown confirming the theoretical predictions.

LaminaExperimental mechanicsWork (thermodynamics)Materials scienceMechanical EngineeringComposite numberStrain measurementStiffnessOrthotropic materialbody regionsMechanics of MaterialsmedicineComposite materialmedicine.symptomStrain gaugeStrain
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RESIDUAL STRESS ANALYSIS OF ORTHOTROPIC MATERIALS BY THE THROUGH-HOLE DRILLING METHOD

2007

The present study deals with the development and the application of the through-hole drilling method for the residual stress analysis in orthotropic materials. Through a systematic theoretical study of the stress field present on orthotropic plates with a circular hole, the relationships between the relaxed strains measured by a rectangular strain gauge rosette and the Cartesian components of the unknown residual stresses are obtained. The theoretical formulas of each influence coefficient allow the user an easy application of the method to the analysis of uniform-residual stresses on a generic homogeneous orthotropic material. Furthermore, to extend the method to the analysis of the residu…

Hole drilling methodMaterials sciencebusiness.industryMechanical EngineeringAerospace EngineeringDrillingStructural engineeringOrthotropic materiallaw.inventionStress fieldMechanics of MaterialslawResidual stressSolid mechanicsCartesian coordinate systemResidual stress Hole-drilling method Orthotropic materials Composite materialsbusinessStrain gauge
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A full body musculoskeletal model based on flexible multibody simulation approach utilised in bone strain analysis during human locomotion

2011

Load-induced strains applied to bone can stimulate its development and adaptation. In order to quantify the incident strains within the skeleton, in vivo implementation of strain gauges on the surfaces of bone is typically used. However, in vivo strain measurements require invasive methodology that is challenging and limited to certain regions of superficial bones only such as the anterior surface of the tibia. Based on our previous study [Al Nazer et al. (2008) J Biomech. 41:1036-1043], an alternative numerical approach to analyse in vivo strains based on the flexible multibody simulation approach was proposed. The purpose of this study was to extend the idea of using the flexible multibod…

EngineeringBiomedical EngineeringBioengineeringBone healingModels BiologicalMotion captureInverse dynamicsElastic ModulusTensile StrengthHumansComputer SimulationTibiaMuscle SkeletalStrain gaugeSimulationTibiabusiness.industryDynamics (mechanics)Multibody simulationGeneral MedicineStructural engineeringComputer Science ApplicationsHuman-Computer InteractionDynamic loadingStress MechanicalbusinessLocomotionMuscle ContractionComputer Methods in Biomechanics and Biomedical Engineering
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Misfit evaluation of dental implant-supported metal frameworks manufactured with different techniques: Photoelastic and strain gauge measurements

2016

This study aims to compare in-vitro the fitting accuracy of implant-supported metal frameworks used for full-arch orthodontic restoration. The hypotheses tested were as follows: (1) for a fixed implant morphology, strains developed within the framework depend on how the framework had been fabricated and (2) stresses transferred to the implant–bone interface are related to the amount of framework misfit. Metal frameworks were fabricated using four different manufacturing techniques: conventional lost-wax casting, resin cement luting, electrospark erosion, and computer-aided design/computer-aided manufacturing milling. Each framework was instrumented with three strain gauges to measure strai…

orthodontic restoration0301 basic medicineEngineering drawingMaterials sciencemedicine.medical_treatmentpassive fitStress (mechanics)03 medical and health sciences0302 clinical medicineSettore ING-IND/12 - Misure Meccaniche E TermichemedicineDental bridges orthodontic restoration full-arch implants passive fit edentulismComposite materialPolarization (electrochemistry)Dental implantStrain gaugeResin cementedentulismMechanical EngineeringSettore ING-IND/34 - Bioingegneria Industriale030206 dentistryGeneral Medicinefull-arch implant030104 developmental biologyCasting (metalworking)Dental bridge
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Stress distribution in fixed mandibular prostheses fabricated by CAD/CAM and conventional techniques: Photoelastic and strain gauge analyses

2019

Made available in DSpace on 2020-12-12T00:55:27Z (GMT). No. of bitstreams: 0 Previous issue date: 2019-09-01 The aim of this study was to evaluate the distribution of stress in complete fixed mandibular prostheses with infrastructures (IE) fabricated with different materials and techniques, under compressive force. A model of an edentulous mandible, which received five 4x11 mm external hexagon implants between the mental foramens, was fabricated. The groups were divided into: Group I - IE in nickel-chromium with an acrylic resin occlusal coating; Group II - IE in nickel-chromium with a ceramic occlusal coating; Group III - IE milled in zirconia with a ceramic coating. For the photoelastic m…

OrthodonticsProsthetic DentistryMaterials scienceResearchDental implantsBiomechanicsengineering.material:CIENCIAS MÉDICAS [UNESCO]Compression (physics)Stress (mechanics)Mandibular prosthesis implantationCompressive strengthCoatingvisual_artUNESCO::CIENCIAS MÉDICASengineeringTukey's range testvisual_art.visual_art_mediumBiomechanicsGeneral DentistryAcrylic resinStrain gaugeJournal of Clinical and Experimental Dentistry
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Local reinforcement effect of embedded strain gauges

2010

The reinforcement effect of strain gauges installed on low Young's modulus materials has received attention by many researchers with respect to both strain gauges installed on the surface [1,2] and embedded inside the material [3,4]. In the case of strain gauges installed on the surface, the evaluation of the local reinforcement effect gives [5] the following correction coefficient C, i.e. the ratio between the actual strain (without the strain gauge) and the strain ' measured by the strain gauge: * ' 1 sg s E C E (1) being * sg g , sg sg sg sg sg sg t L L E E L t t (2) where Esg is the Young’s modulus of the strain gauge, * Esg is a characteristic of the strain gauge which gives the strain…

PhysicsSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineStrain (chemistry)PhysicsQC1-999technology industry and agricultureModulusMechanical engineeringEMBEDDED STRAIN GAUGE LOCAL REINFORCEMENT EFFECTSComposite materialReinforcementStrain gaugeEPJ Web of Conferences
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Using FEM simulation to predict structural performances of a sailing dinghy

2017

The use of finite element method (FEM) tools is proposed to investigate the structural response of an eco-sustainable sailing yacht to different loading conditions, typical of those acting during regattas. The boat is, in particular, a 4.60 m dinghy with the hull and the deck made of an hybrid flax–cork sandwich and internal reinforcements made of marine plywood. A preliminary activity has consisted in the refitting of an existing model in order to reduce the hull weight and to improve performances during manoeuvrings. These tasks have been interactively simulated in the virtual environment of the boat CAD model, where longitudinal and transversal reinforcements were enlightened and the m…

EngineeringFEMbusiness.industry020101 civil engineering02 engineering and technologyStructural engineeringFinite element methodIndustrial and Manufacturing Engineering0201 civil engineeringDeckModeling and simulation020303 mechanical engineering & transports0203 mechanical engineeringBeam (nautical)FEM; Refitting; Sailing yacht; Modeling and Simulation; Industrial and Manufacturing EngineeringRefittingHullModeling and SimulationSailing yachtEngineering design processbusinessSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeStrain gaugeFem simulations
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