Search results for "stiffne"

showing 10 items of 533 documents

Stiffness degree of ankle range of motion in diabetic patients with atypical amputation

2020

SUMMARY In diabetics, foot deformities are risk factors that increase the risk of amputation as a result of developing ulcers. However, knowledge of the influence of plantar stiffness is still limited. The main objective was to describe connections between the degree of stiffness of the ankle, atypical amputation, and the Foot Posture Index (FPI). METHODS 62 diabetic patients, 58 with type 2 and 4 with type 1 (average age 63.35 years) were included. Records of foot deformities were included; A range of motion test of the ankle joint was used to determine the degree of stiffness. An exploratory analysis of the association of foot position and the degree of rigidity was performed. RESULTS The…

Malemedicine.medical_treatmentAmputação0302 clinical medicineReference Valuesrisk factorsRange of Motion ArticularAmputationOrthodonticslcsh:R5-920AnthropometryStiffnessGeneral MedicineMiddle AgedArticulação do tornozelo/fisiopatologiaDiabetic footmedicine.anatomical_structureankle joint/physiopathologyFemalemedicine.symptomRange of motionlcsh:Medicine (General)Foot (unit)diabetic footPosture030209 endocrinology & metabolismAmputation SurgicalStatistics Nonparametric03 medical and health sciencesDiabetes mellitusamputationmedicineHumansAgedFatores de riscobusiness.industryFootPé diabético030229 sport sciencesAnthropometrymedicine.diseaseDiabetic footAnkle joint/physiopathologyCross-Sectional StudiesDiabetes Mellitus Type 1AmputationDiabetes Mellitus Type 2Risk factorsAnklebusinessAnkle JointRevista da Associação Médica Brasileira
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Number and Locations of Screw Fixation for Volar Fixed-Angle Plating of Distal Radius Fractures: Biomechanical Study

2010

Purpose To compare the biomechanical properties of different numbers and locations of screws in a multidirectional volar fixed-angle plate in a distal radius osteotomy cadaver model. Methods We created an extra-articular fracture in 16 pairs of fresh-frozen human cadaver radiuses. The 32 specimens were randomized into 4 groups. All fractures were fixated with a multidirectional volar fixed-angle plate. We tested 4 different screw-placement options in the distal fragment. The distal fragment was fixed with 4 locking screws in the distal row of the plate in group a, and with 4 locking screws alternately in the distal and proximal rows in group b. In group c, 3 locking screws were used in the …

Malemusculoskeletal diseasesmedicine.medical_specialtyBone ScrewsBendingFracture Fixation InternalFracture fixationBone platemedicineHumansOrthopedics and Sports MedicineAgedFixation (histology)Aged 80 and overOrthodonticsbusiness.industryBiomechanicsStiffnessRadiusMiddle Agedequipment and suppliesmusculoskeletal systemBiomechanical PhenomenaSurgeryEquipment Failure Analysissurgical procedures operativeOrthopedic surgeryFemaleSurgerymedicine.symptomRadius FracturesbusinessBone PlatesThe Journal of Hand Surgery
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Repeatability and sensitivity of passive mechanical stiffness measurements in the triceps surae muscle‐tendon complex

2021

Measurements of muscle-tendon unit passive mechanical properties are often used to illustrate acute and chronic responses to a training stimulus. The purpose of this study was to quantify the inter-session repeatability of triceps surae passive stiffness measurements in athletic and non-athletic populations, with the view to discussing its usefulness both as a muscle-tendon profiling tool and a control measure for studies with multiple data collection sessions. The study also aimed to observe the effects of quiet standing on passive stiffness parameters. Twenty-nine men (10 cyclists, nine triathletes, 10 controls) visited the laboratory on three separate occasions, where passive stiffness t…

Malemusculoskeletal diseasesmedicine.medical_specialtyQP301.H75_Physiology._Sport.pohkeetpassive stiffnesslihaksetPhysical Therapy Sports Therapy and RehabilitationAchilles Tendonrange of motionjänteetPhysical medicine and rehabilitationTriceps surae musclemuscle-tendon mechanicsjäykkyysmedicineHumansOrthopedics and Sports MedicineSensitivity (control systems)Range of Motion ArticularMuscle SkeletalElectromyographybusiness.industryUltrasoundStiffnessRepeatabilityTendonliikkuvuusmedicine.anatomical_structurebiomekaniikkaAnklemedicine.symptombusinessRange of motionAnkle JointScandinavian Journal of Medicine & Science in Sports
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Infilled frames: developments in the evaluation of the stiffening effect of infills

2003

In order to consider the modified seismic response of framed structures in the presence of masonry infills, proper models have to be formulated. Because of the complexity of the problem, a careful definition of a diagonal pin-jointed strut, able to represent the horizontal force-interstorey displacement cyclic law of the actual infill, may be a solution. In this connection the present paper shows a generalized criterion for the determination of the ideal cross-section of the strut mentioned before. The procedure is based on the equivalence between the lateral stiffness of the actual infilled frame scheme during the conventional elastic stage of the response and the lateral stiffness of the …

Masonry infillEngineeringStiffening effectSimplified modelDiagonalDisplacement (vector)symbols.namesakemedicineInfillEquivalent strutGeotechnical engineeringCivil and Structural Engineeringbusiness.industryMechanical EngineeringStiffnessFlexural rigidityBuilding and ConstructionStructural engineeringMasonryPoisson's ratioStiffeningMechanics of MaterialsIdentification techniquesymbolsmedicine.symptombusinessInfilled frameStructural Engineering and Mechanics
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Static strength and fatigue life of optimized hybrid single lap aluminum–CFRP structural joints

2017

Hybrid bolted/bonded joints are used to assemble structural components, commonly made by carbon fiber reinforced plastics (CFRP), with aluminum frames. Hence, they have become common solutions in a number of modern structural applications in the industrial fields, as well as civil constructions. Unfortunately, due to the lack of understanding of the relationships between the multiple parameters of influence that characterize their mechanical performance, only limited improvement have been achieved so far over classical bonding approaches, in terms of static and fatigue strength. As a result, further studies are needed in order to better exploit the potential of hybrid bolted/bonded joints a…

Materials Chemistry2506 Metals and AlloysMaterials scienceStatic strengthSurfaces Coatings and Filmchemistry.chemical_element02 engineering and technologydelaminationSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di Macchine0203 mechanical engineeringAluminiumMaterials Chemistrymedicinefinite element analysis (FEA)Mechanics of MaterialComposite materialSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industrialebusiness.industryChemistry (all)StiffnessSurfaces and InterfacesGeneral ChemistryStructural engineering021001 nanoscience & nanotechnologyStrength of materialsFatigue limitSurfaces Coatings and FilmsAdhesive joint020303 mechanical engineering & transportschemistryMechanics of MaterialsfatigueAdhesivemedicine.symptom0210 nano-technologybusinessSurfaces and Interfacestructural compositeThe Journal of Adhesion
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Deformation and failure of MXene nanosheets

2020

This work is aimed at the development of finite element models and prediction of the mechanical behavior of MXene nanosheets. Using LS-Dyna Explicit software, a finite element model was designed to simulate the nanoindentation process of a two-dimensional MXene Ti3C2Tz monolayer flake and to validate the material model. For the evaluation of the adhesive strength of the free-standing Ti3C2Tz-based film, the model comprised single-layered MXene nanosheets with a specific number of individual flakes, and the reverse engineering method with a curve fitting approach was used. The interlaminar shear strength, in-plane stiffness, and shear energy release rate of MXene film were predicted using th…

Materials science02 engineering and technology010402 general chemistrylcsh:Technology01 natural sciencesArticleMonolayermedicineGeneral Materials ScienceComposite materiallcsh:Microscopylcsh:QC120-168.85Strain energy release ratelcsh:QH201-278.5lcsh:TTension (physics)MXene; mechanical behavior; finite element modelingStiffnessfinite element modelingNanoindentation021001 nanoscience & nanotechnologyFinite element method0104 chemical sciencesShear (sheet metal)lcsh:TA1-2040mechanical behaviorlcsh:Descriptive and experimental mechanicslcsh:Electrical engineering. Electronics. Nuclear engineeringDeformation (engineering)medicine.symptomlcsh:Engineering (General). Civil engineering (General)0210 nano-technologyMXenelcsh:TK1-9971
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Thermo-rheological analysis of WMA-additive modified binders

2020

AbstractThermo-rheological characteristics of unmodified and modified bitumen have significant impacts on the mechanical response of asphalt. This study investigates the impacts of an organic and a chemical Warm Mix Asphalt additive on bitumen thermo-rheological and mechanical characteristics. Modified binders with different concentrations of each additive were studied and analysed comparatively to a 40/60 penetration grade bitumen. Frequency sweep tests were performed at different ageing levels to characterise the Linear Viscoelastic properties. The multiple stress creep and recovery, linear amplitude sweep (LAS) and low temperature creep stiffness tests, together with the Glover–Rowe (G–R…

Materials science0211 other engineering and technologiesStiffness020101 civil engineering02 engineering and technologyBuilding and ConstructionViscoelasticitySweep frequency response analysis0201 civil engineeringShear modulusCreepRheologyMechanics of MaterialsAsphalt021105 building & constructionSolid mechanicsAgeing Bitumen rheology Fatigue Low-temperature cracking Rutting Warm mix asphalt (WMA) additivesmedicineSettore ICAR/04 - Strade Ferrovie Ed AeroportiGeneral Materials ScienceComposite materialmedicine.symptomCivil and Structural EngineeringMaterials and Structures
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Comparison of spring characteristics of titanium-molybdenum alloy and stainless steel

2017

Background Titanium-molybdenum alloy (TMA) and stainless steel (SS) wires are commonly used in orthodontics as arch-wires for tooth movement. However, plastic deformation phenomenon in these arch-wires seems to be a major concern among orthodontists. This study aimed to compare the mechanical properties of TMA and SS wires with different dimensions. Material and Methods Seventy-two wire samples (36 TMA and 36 SS) of three different sizes (19×25, 17×25 and 16×22) were analyzed in vitro, with 12 samples in each group. Various mechanical properties of the wires, including spring-back, bending moment and stiffness were determined using a universal testing machine. Student’s t-test showed statis…

Materials scienceAlloyOrthodonticsOdontología02 engineering and technologyengineering.materiallaw.inventionTitanium molybdenum alloy03 medical and health sciences0302 clinical medicineOptical microscopelawmedicineComposite materialGeneral DentistryUniversal testing machineResearch020502 materialsStiffness030206 dentistry:CIENCIAS MÉDICAS [UNESCO]Ciencias de la salud0205 materials engineeringSpring (device)Tooth movementUNESCO::CIENCIAS MÉDICASengineeringBending momentmedicine.symptom:CIENCIAS MÃ DICAS [UNESCO]
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Stiffness design of laminates using the polar method

2001

This paper is devoted to the analysis of elastic properties of anisotropic laminas using the so-called polar representation method: this is an effective mathematical tool to analyse two-dimensional elastic problems. By this method, the authors have been able to find a particular class of solutions to some special inverse problems concerning laminates made by anisotropic layers. The properties of these solutions are described and discussed, along with some general results.

Materials scienceApplied MathematicsMechanical EngineeringProbleme inverseMathematical analysisMarsaglia polar methodInverse problemCondensed Matter PhysicsMechanics of MaterialsStiffness designModeling and SimulationPolarGeneral Materials SciencePolar coordinate systemComposite materialAnisotropyRepresentation (mathematics)International Journal of Solids and Structures
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Flexural behaviour of glulam timber beams reinforced with FRP cords

2015

Abstract Glued laminated timber (glulam) is widely used as a construction material to make up lightweight and large span structures. The basic principle of this material consists in bonding together a number of layers of dimensioned timber with structural adhesives, in order to increase strength and stiffness of the member, and allowing to make up sustainable structures with great visual impact. Recent applications showed the effectiveness of fibre-reinforced polymer (FRP) composites in enhancing the structural performances of glulam beams, with particular reference on their flexural and shear strength. In fact FRP reinforcements could be used to strengthen existing structures or to reduce …

Materials scienceBendingFlexural strengthFRP strengtheningGlued laminated timbermedicineShear strengthGeneral Materials ScienceComposite materialCivil and Structural EngineeringFlexural behaviourbusiness.industryStiffnessEpoxyStructural engineeringBuilding and ConstructionFibre-reinforced plasticSettore ICAR/09 - Tecnica Delle CostruzioniFRP cordvisual_artvisual_art.visual_art_mediumGlulamAdhesiveMaterials Science (all)medicine.symptombusiness
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