Search results for "Ultima"

showing 10 items of 396 documents

Coefficient of thermal expansion and elastic modulus of thin films

1999

The coefficient of thermal expansion (CTE), biaxial modulus, and stress of some amorphous semiconductors (a-Si:H, a-C:H, a-Ge:H, and a-GeCx:H) and metallic (Ag and Al) thin films were studied. The thermal expansion and the biaxial modulus were measured by the thermally induced bending technique. The stress of the metallic films, deposited by thermal evaporation (Ag and Al), is tensile, while that of the amorphous films deposited by sputtering (a-Si:H, a-Ge:H, and a-GeCx:H) and by glow discharge (a-C:H) is compressive. We observed that the coefficient of thermal expansion of the tetrahedral amorphous thin films prepared in this work, as well as that of the films reported in literature, depen…

Materials scienceSputteringUltimate tensile strengthDangling bondGeneral Physics and AstronomyModulusFísicaThin filmComposite materialCiència dels materialsElastic modulusThermal expansionAmorphous solid
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Strain-dependent electrical resistance of epoxy/MWCNT composite after hydrothermal aging

2015

Abstract The electrical resistance of epoxy/multi-wall carbon nanotube (MWCNT) composites was studied under the effect of hygro- and hydrothermal aging. Tensile tests were conducted and the responses in the electrical resistance were measured during the tests for samples with different prehistory of environmental exposure. The overall pattern of the electrical resistance change versus strain for the samples tested consists of linear and nonlinear regions with a broad peak that precedes the ultimate strength of the sample and occurs at the onset of evident plastic deformation in the stress–strain curve. The composite with lower content of MWCNTs exhibits a more pronounced nonlinear behavior …

Materials scienceStrain (chemistry)Composite numberGeneral EngineeringEpoxyEnvironmental exposureHydrothermal circulationElectrical resistance and conductancevisual_artUltimate tensile strengthCeramics and Compositesvisual_art.visual_art_mediumComposite materialElectrical conductorComposites Science and Technology
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Scale effect of the tensile strength of flax-fabric-reinforced polymer composites

2011

The development of UD natural fiber composites, considered for application as structural materials, necessitates evaluation of the scale effect of their strength. Alignment of the fibers in flax bast fiber composites can be achieved by employing textile reinforcement, such as yarns and fabrics. Cutting specimens for mechanical tests out of such textile-reinforced composite plates results in a complex non-uniform reinforcement structure at their edges, which may affect the strength of specimens. Scale effect of the tensile strength in the fiber direction of flax-fabric-reinforced composites is studied in the current work. A model accounting for both volume and edge effect of the specimens o…

Materials scienceStructural materialPolymers and PlasticsMechanical EngineeringComposite numberCompressive strengthMechanics of MaterialsUltimate tensile strengthMaterials ChemistryCeramics and CompositesBast fibreFiberComposite materialNatural fiberTensile testingJournal of Reinforced Plastics and Composites
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Effects of Different Test Setups on the Experimental Tensile Behaviour of Basalt Fibre Bidirectional Grids for FRCM Composites

2020

Fibre-reinforced cementitious matrix (FRCM) composites have been effectively used during the last ten years for the strengthening of existing concrete and masonry structures. These composite materials are made of medium- and high-strength fibre meshes embedded in inorganic matrices. Synthetic fibres are the ones that are currently the most used

Materials scienceTRMDigital image correlation (DIC)0211 other engineering and technologies02 engineering and technologySTRIPSFRCMcompositeslaw.inventionBiomaterialslcsh:TP890-933lawlcsh:TP200-248021105 building & constructionUltimate tensile strengthTensile characterisationComposite materiallcsh:QH301-705.5Civil and Structural Engineeringbusiness.industrySystem of measurementbasalt gridlcsh:Chemicals: Manufacture use etc.Masonry021001 nanoscience & nanotechnologyGridlcsh:QC1-999ClampingSettore ICAR/09 - Tecnica Delle CostruzioniSynthetic fiberlcsh:Biology (General)Mechanics of MaterialsCeramics and Compositeslcsh:Textile bleaching dyeing printing etc.Slippage0210 nano-technologybusinesslcsh:PhysicsBasalt grid
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The effect of a circular hole on the tensile strength of neat and filled rigid PUR foams

2015

Abstract In order to elucidate the effect of stress concentration on the tensile strength of rigid polyurethane (PUR) foams, specimens with open circular holes and different ratios of hole diameter to specimen width were tested in tension. The reduction in the net-section strength of the specimens with a center hole ranged from 1% to 18% for neat foams and from 18% to 28% for foams produced from a nanoclay-filled PUR. The finite fracture mechanics approach, based on simultaneous application of the strength and fracture mechanics criteria of failure, yielded a reasonably accurate prediction of foam strength in the presence of stress concentration.

Materials scienceTension (physics)Applied MathematicsMechanical EngineeringFracture mechanicsCondensed Matter PhysicsFinite fracture mechanicschemistry.chemical_compoundCircular holechemistryUltimate tensile strengthGeneral Materials ScienceComposite materialOpen holePolyurethaneStress concentrationTheoretical and Applied Fracture Mechanics
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Analysis of the effect of a stress raiser on the strength of a UD flax/epoxy composite in off-axis tension

2014

The effect of stress raisers in the form of a slit-like notch and an open circular hole on the tensile strength of a quasi-UD flax-fiber-reinforced composite is studied experimentally. A finite fracture mechanics approach is applied to determine the intralaminar fracture toughness of the composite and to predict the strength in the presence of stress concentration. Reasonably good agreement of the notch effect predicted using finite fracture mechanics with a coupled strength and toughness fracture criterion and test results is demonstrated.

Materials scienceTension (physics)Mechanical EngineeringComposite numberEpoxyStress (mechanics)Fracture toughnessFlexural strengthMechanics of Materialsvisual_artUltimate tensile strengthMaterials ChemistryCeramics and Compositesvisual_art.visual_art_mediumComposite materialStress concentrationJournal of Composite Materials
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Glass fibre strength distribution determined by common experimental methods

2002

The tensile strength of brittle fibres is routinely described by the Weibull distribution. The parameters of the distribution can be obtained from tests on single fibres and fibre bundles or from model composite tests. However, there is growing evidence that the distribution parameters obtained by different experimental techniques differ systematically. In order to investigate the possible causes of such discrepancies, single-fibre tension, fibre bundle, and single-fibre fragmentation tests are employed in this study to obtain strength distribution of commercial E-glass fibres. The results reveal parameter dependence on the approach used to extract the distribution parameters from experimen…

Materials scienceTension (physics)glass fibresComposite numberGlass fiberGeneral EngineeringShape parameterMathematics::Algebraic GeometryBrittlenessstatisticsfragmentationUltimate tensile strengthCeramics and CompositesFiber bundleComposite materialstrengthweibull distributionWeibull distributionComposites Science and Technology
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Effectiveness of stirrups and steel fibres as shear reinforcement

2004

This paper presents the results of experimental tests carried out on rectangular simply supported beams made of hooked steel fibre reinforced concrete with and without stirrups, subjected to two-point symmetrically placed vertical loads. The tests, carried out with controlled displacements, allow one to record complete load-deflection curves by means of which it is possible to deduce information on dissipative capacity and ductile behaviour up to failure. Depending on the amount of transverse reinforcement, volume fraction of fibres added in the mix and shear span, the collapse mechanism is due to predominant shear or flexure, thus showing the influence of the aforementioned structural para…

Materials scienceTestbusiness.industryBuilding and ConstructionStructural engineeringSpan (engineering)Ultimate strengthIndustrial and Manufacturing EngineeringShear (sheet metal)Steel fibreFibre reinforced concrete beamSettore ICAR/09 - Tecnica Delle CostruzioniBrittlenessFlexural strengthVolume fractionDissipative systemShear strengthCeramics and CompositesGeneral Materials ScienceComposite materialbusinessStirrupBeam (structure)
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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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Estimation of the tensile strength of an oriented flax fiber-reinforced polymer composite

2011

Unidirectional orientation of natural fibers in a polymer composite ensures the highest efficiency of reinforcement. Flax fiber reinforcement is discontinuous due to limited fiber length and heterogeneous due to the presence of elementary fibers and their bundles. In order to assess the upper limit of tensile strength of such slightly misoriented, nominally UD natural fiber composite, a statistical strength model of continuous UD fiber reinforced composites is applied. It is found that the experimental strength of UD flax composites, produced from rovings or manually aligned fibers, approaches the theoretical limit only at relatively low fiber volume fraction ca. 0.2, being markedly below i…

Materials scienceTransfer moldingMechanics of MaterialsVolume fractionComposite numberUltimate tensile strengthCeramics and CompositesFiber-reinforced compositeFiberComposite materialReinforcementNatural fiberComposites Part A: Applied Science and Manufacturing
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