Search results for "Composite materials"

showing 10 items of 59 documents

Numerical simulation of fatigue-driven delamination using interface elements

2005

This paper presents a computational technique for the prediction of fatigue-driven delamination growth in composite materials. The interface element, which has been extensively applied to predict delamination growth due to static loading, has been modified to incorporate the effects of cyclic loading. Using a damage mechanics formulation, the constitutive law for the interface element has been extended by incorporating a modified version of a continuum fatigue damage model. The paper presents details of the fatigue degradation strategy and examples of the predicted fatigue delamination growth in mode I, mode II and mixed mode I/II are presented to demonstrate that the numerical model mimics…

DAMAGEinterface elementNumerical AnalysisEngineeringComputer simulationbusiness.industryApplied Mathematicscomposite materialsConstitutive equationGeneral EngineeringFracture mechanicsFatigue damageStructural engineeringdelaminationFinite element methodComputational TechniqueINTERLAMINAR FRACTURE SPECIMENS DAMAGE COMPOSITES FATIGUE GROWTHFATIGUE GROWTHDamage mechanicsMode couplingCOMPOSITESfatigueINTERLAMINAR FRACTURE SPECIMENSbusinessInternational Journal for Numerical Methods in Engineering
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Determination of the effective permittivity of dielectric mixtures with the transmission line matrix methodDetermination of the effective permittivit…

2007

In this article, the effective permittivity of two-phase dielectric mixtures is calculated by applying the transmission line matrix (TLM) method. Two slightly different TLM algorithms are considered: a hybrid approach, which combines the TLM method with a subgriding technique based on dual capacitor circuits, to allow a refined description of the material, and a standard or pure TLM approach, which uses a mesh size smaller than the typical dimension of insertions in order to appropriately describe details of the geometry. A study of the statistical distribution of permittivity for insertions in random positions is also presented, showing that the effective permittivity of the mixture tends …

Dielectric materialsTransmission line matrix methods:FÍSICA [UNESCO]PermittivityUNESCO::FÍSICAComposite materials ; Dielectric materials ; Permittivity ; Transmission line matrix methodsComposite materials
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Time-resolved X-ray microtomographic measurement of water transport in wood-fibre reinforced composite material

2016

Natural fibre composites are prone to absorb moisture from the environment which may lead to dimensional changes, mold growth, degradation of mechanical properties or other adverse effects. In this work we develop a method for direct non-intrusive measurement of local moisture content inside a material sample. The method is based on X-ray microtomography, digital image correlation and image analysis. As a first application of the method we study axial transport of water in a cylindrical polylactic acid/birch pulp composite material sample with one end exposed to water. Based on the results, the method seems to give plausible estimates of water content profiles inside the cylindrical sample.…

Digital image correlationMaterials sciencewood-fibresX-ray microtomographic measurementcomposite materialsengineering.materialmedicine.disease_causechemistry.chemical_compoundPolylactic acidMoldmedicineComposite materialWood fibreWater contentProperTunebiocompositesWater transportMoisturevesikuljetusPulp (paper)wood-fibrechemistryX-ray microtomographyengineeringPLAwater tranportIOP Conference Series: Materials Science and Engineering
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Thermo-mechanical post-buckling analysis of variable angle tow composite plate assemblies

2017

peer-reviewed The increasing use of composite materials for lightweight structural applications and the extended tailoring capabilities offered by variable stiffness laminates requires rapid and robust analysis tools that adequately describe the mechanical behaviour of such structures. In this work, a Rayleigh–Ritz solution for generally restrained multilayered stiffened variable angle tow plates in the post-buckling regime is presented. The plate model is based on first-order shear deformation theory and accounts for geometrical nonlinearity through von Kármán’s assumptions. General symmetric and unsymmetric stacking sequences are considered and Legendre orthogonal polynomials are employed…

EngineeringRayleigh-Ritz solutionbusiness.industrycomposite materialsComposite numberCeramics and Composite02 engineering and technologyStructural engineering021001 nanoscience & nanotechnologyFinite element methodPhysics::Fluid Dynamics020303 mechanical engineering & transports0203 mechanical engineeringBucklingComposite plateOrthogonal polynomialsDisplacement fieldCeramics and CompositesBoundary value problemSettore ING-IND/04 - Costruzioni E Strutture Aerospaziali0210 nano-technologybusinessLegendre polynomialsCivil and Structural EngineeringComposite Structures
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Composite Material Recycling Technology—State-of-the-Art and Sustainable Development for the 2020s

2021

Recently, significant events took place that added immensely to the sociotechnical pressure for developing sustainable composite recycling solutions, namely (1) a ban on composite landfilling in Germany in 2009, (2) the first major wave of composite wind turbines reaching their End-of-Life (EoL) and being decommissioned in 2019–2020, (3) the acceleration of aircraft decommissioning due to the COVID-19 pandemic, and (4) the increase of composites in mass production cars, thanks to the development of high volume technologies based on thermoplastic composites. Such sociotechnical pressure will only grow in the upcoming decade of 2020s as other countries are to follow Germany by limiting and ba…

Engineeringcircular economy;Sociotechnical systemcomposite materialsAutomotive industryend-of-life02 engineering and technologyrecycling010501 environmental sciencescompositeslcsh:Technology7. Clean energy01 natural sciencesCommercializationNuclear decommissioning12. Responsible consumptionComposite materiallcsh:Sciencecars;recycling;Engineering (miscellaneous)0105 earth and related environmental sciencesSustainable developmentcircularitylcsh:Tbusiness.industryCircular economysustainability;sustainability021001 nanoscience & nanotechnologysocietycircularity;composite materials;composites;Work (electrical)end-of-life;technologySustainabilityCeramics and Compositeslcsh:Q0210 nano-technologybusinessJournal of Composites Science
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An analysis of interface delamination mechanisms in orthotropic and hybrid fiber-metal composite laminates

2007

Abstract The onset and propagation of interlaminar defects is one of the main damage mechanisms in composite materials. This is even more the case when considering layered materials comprising metallic laminae (typically Aluminium) and FRP laminae. Propagation of delamination mainly depends on the initial crack extension and its loading mode. This work presents some results of a combined analytical–numerical–experimental study on the onset and propagation mechanisms regarding interlaminar defects. Two cases have been analysed in particular, the first consisting of a glass-fibre reinforced epoxy resin laminate, and the second consisting of a hybrid laminate where a lamina of aluminium is lay…

Fiber metal laminateMaterials scienceMechanical EngineeringDelaminationComposite materialsFracture toughnessDissimilar mixed mode bending specimenchemistry.chemical_elementFracture mechanicsEpoxyFibre-reinforced plasticComposite laminatesOrthotropic materialSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchinechemistryMechanics of MaterialsAluminiumvisual_artvisual_art.visual_art_mediumGeneral Materials ScienceComposite materialEngineering Fracture Mechanics
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Water diffusion and swelling stresses in ionizing radiation cured epoxies as matrices for carbon fiber composites

2017

Cross-linking polymerization initiated by high energy radiation is a very attractive technique for the production of high performance composite materials. This method in fact offers many advantages compared to conventional thermal curing processes, due to the possibility to operate at mild temperature and in short time, limiting both energy and time consuming [1-2]. High performance composite materials mainly consist of epoxy resins as matrix and carbon fibers as reinforce, due to their excellent properties in terms of thermal and mechanical resistance. An important requirement of such systems for structural applications is their ability to maintain the properties within a fixed range durin…

High performance composite materials electron beam curing hydrothermal ageing Photoelastic Stress Analysis
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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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Nanostructured Composite Materials for Energy Storage and Conversion: Collection of articles

2019

Latvijas Universitātes Cietvielu fizikas institūta, Latvijas Valsts koksnes ķīmijas institūta, Rīgas Tehniskās universitātes Materiālzinātnes un lietišķās ķīmijas fakultātes Neorganiskās ķīmijas institūta, Latvijas Universitātes Ķīmijas fakultātes, Latvijas Universitātes Bioloģijas fakultātes zinātnieku pētnieciskie rezultāti LZP sadarbības projektā Nr. 666 2014.–2017. gadā.

KompozītmateriāliComposite Materials:TECHNOLOGY::Engineering physics [Research Subject Categories]
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Three-Dimensional Strain Analysis of Single-Lap Bolted Joints in Thick Composites Using Fibre-Optic Gauges and the Finite-Element Method

2010

Bolted joints involving composite plates used to be almost entirely dedicated to aerospace applications. As the need for energy conservation has increased, the field of composite bolted joints has found new applications in ground armoured vehicles. Thick panels able to withstand large in-plane and impact loads are critical. The present investigation evaluates the interior strain field, through the thickness, of a composite plate connected to an aluminium panel with a single-lap bolted joint. The area of interest is the bearing plane region close to the hole because of the presence of stress concentrations that heavily modify the stress field. Experimental data for the bolted joint were rec…

Materials scienceBearing (mechanical)business.industryApplied MathematicsMechanical EngineeringComposite numberStructural engineeringbolted joint composite materials fibre-optic strain gauge (FOSG) FEM ANSYS LS-DYNAlaw.inventionStress fieldMechanics of MaterialsComposite platelawModeling and SimulationBolted jointLS-DYNAComposite materialbusinessStrain gaugeStress concentrationThe Journal of Strain Analysis for Engineering Design
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