Search results for "Composite"

showing 10 items of 4584 documents

Streptavidin-coated TiO2 surfaces are biologically inert: Protein adsorption and osteoblast adhesion studies

2011

Non-fouling TiO2 surfaces are attractive for a wide range of applications such as biosensors and medical devices, where biologically inert surfaces are needed. Typically, this is achieved by controlled surface modifications which prevent protein adsorption. For example, polyethylene glycol (PEG) or PEG-derived polymers have been widely applied to render TiO2 surfaces biologically inert. These surfaces have been further modified in order to achieve specific bio-activation. Therefore, there have been efforts to specifically functionalize TiO2 surfaces with polymers with embedded biotin motives, which can be used to couple streptavidin for further functionalization. As an alternative, here a s…

StreptavidinMaterials scienceSurface PropertiesBiomedical EngineeringNanotechnologyMicroscopy Atomic ForceCell LineBiomaterialschemistry.chemical_compoundCell AdhesionHumansBiotinylationTitaniumchemistry.chemical_classificationOsteoblaststechnology industry and agricultureMetals and AlloysPolymerSilanesFibronectinsKineticsSurface coatingchemistryBiotinylationCeramics and CompositesSurface modificationMuramidaseAdsorptionStreptavidinBiosensorLayer (electronics)Protein adsorptionJournal of Biomedical Materials Research Part A
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Stress induced grain boundary migration in very soluble brittle salt

1999

Abstract Grain boundary migration (GBM) was studied in-situ at room temperature, atmospheric pressure and an applied diffmfwerential stress of ∼9.5 MPa under the optical microscope, in a wet aggregate of an elastic-brittle salt (sodium chlorate). The aggregate was previously deformed predominantly by a combination of grain boundary sliding, pressure solution and cataclastic solution creep. After deformation, but when the sample was still under differential stress, undeformed, fracture-free grains were observed to grow at the cost of deformed, intensely fractured grains. GMB rates typically fell in the range 2--10 μm/day. GBM took place only as long as the sample was under stress. Boundaries…

Stress (mechanics)BrittlenessCreepMineralogyGeologyPressure solutionCataclastic rockDeformation (engineering)Composite materialDifferential stressGeologyGrain Boundary SlidingJournal of Structural Geology
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Boundary Integral Formulation for Composite Laminates in Torsion

1997

The three-dimensional elastic stress state in a general composite laminate under twisting load is given. The analysis is carried out through an integral equation formulation that is numerically solved by the boundary element method. The integral representation of the elastic behavior is deduced by means of the reciprocity theorem applied to the actual response of each ply and the problem's analytical singular fundamental solutions. The interface continuity conditions due to perfect bonding are considered to complete the laminate mathematical model. The method permits the analysis for generally stacked laminates having general shape of the cross section. By virtue of the formulation characte…

Stress (mechanics)Cross section (physics)Numerical analysisMathematical analysisAerospace EngineeringBoundary (topology)Torsion (mechanics)Composite laminatesIntegral equationBoundary element methodMathematicsAIAA Journal
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The effect of elastic strain on the microstructure of free surfaces of stressed minerals in contact with an aqueous solution

2001

The influence of gradients in bulk elastic strain energy on the dissolution and growth behaviour of minerals in rocks is commonly considered negligible. We experimentally observed, however, that regular arrays of macroscopically visible etch grooves may develop on the originally smooth free surfaces of soluble crystals held in an undersaturated aqueous solution if the crystals are only elastically stressed. These grooves are oriented perpendicular to the compressive stress. They disappear soon after the stress is taken off. The formation of the grooves is well explained by recent theories on the instability of the surface of stressed solids. Development of such instabilities could significa…

Stress (mechanics)GeophysicsAqueous solutionCompressive strengthMaterials scienceElastic energyGeneral Earth and Planetary SciencesMineralogyGrain boundaryCrystal growthComposite materialMicrostructureDissolutionGeophysical Research Letters
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Advances in Strain Gauge Measurement on Composite Materials

2010

Abstract:  This article gives an overview on the application of strain gauge techniques to the analysis of the strains in composite materials. The orthotropic behaviour of the composite influences the performance of strain gauges that are calibrated for use on isotropic materials. The article considers therefore the typical topics of the strain gauge technology applied to composites with particular reference to the compensation of thermal output, the measurement of the coefficients of thermal expansion, the determination of the strain and stress state, the influence of the misalignment error, the reinforcement effect, the determination of the stress intensification factor, the analysis of r…

Stress (mechanics)Hole drilling methodMaterials scienceMechanics of MaterialsResidual stressMechanical EngineeringIsotropyComposite numberComposite materialOrthotropic materialStrain gaugeThermal expansionStrain
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<title>Indentation creep and stress relaxation in amorphous As-S-Se and As-S films</title>

2001

The indentation creep in as-deposited and photopolymerized As- S-Se and As-S films has been investigated. The results show pronounced relaxation of mechanical stresses in the films at room temperature. The relationship (sigma) equals B (epsilon) m between the deformation rate and the stress is observed and the values of the deformation rate sensitivity exponent m < 1 are found. The creep rate was found to be dependent on deposition conditions of layers, applied indentation load, structural state of the material and light irradiation during the creep test.© (2001) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Stress (mechanics)Materials scienceCreepIndentationStress relaxationForensic engineeringRelaxation (physics)Diffusion creepComposite materialDeformation (engineering)Amorphous solidOptical Organic and Inorganic Materials
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Finite fracture mechanics analysis of crack onset at a stress concentration in a UD glass/epoxy composite in off-axis tension

2010

The presence of stress concentrations at holes and notches is known to reduce the strength of composite materials. Due to complexity of the damage processes at a stress raiser in a composite, different modeling approaches have been developed, ranging from empirical point and average stress criteria to involved damage mechanics or cohesive zone-based models of failure. Finite fracture mechanics approach with a coupled stress and energy failure criterion, recently developed and applied mainly to cracking in homogeneous isotropic materials, allows predicting the appearance and propagation of a crack using material strength and toughness characteristics obtained from independent tests. The pres…

Stress (mechanics)Materials scienceFracture toughnessDamage mechanicsUltimate tensile strengthGeneral EngineeringCeramics and CompositesFracture mechanicsComposite materialStrength of materialsStress intensity factorStress concentrationComposites Science and Technology
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A Study on Plastic Shakedown of Structures: Part I—Basic Properties

1993

For a continuous elastic-perfectly plastic solid body subjected to a combination of cyclic (mechanical and/or kinematical) load and of a steady (mechanical) load such as to produce plastic shakedown (i.e., alternating plasticity), a number of characterizing properties are established and discussed. The conditions for the body’s transition from plastic shakedown to ratchetting are also addressed.

Stress (mechanics)Materials scienceMechanics of MaterialsMechanical EngineeringSolid bodyComposite materialPlasticityCondensed Matter PhysicsShakedownJournal of Applied Mechanics
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Photo‐Induced Polymerization and Stress Effects in Fullerite C60

2005

Abstract Modifications of the structure and hardness of fullerite C60 crystals under stresses generated during photo‐induced polymerization are investigated.

Stress (mechanics)Materials sciencePolymerizationStress effectsOrganic ChemistryGeneral Materials SciencePhysical and Theoretical ChemistryComposite materialAtomic and Molecular Physics and OpticsFullerenes, Nanotubes and Carbon Nanostructures
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Application of time–stress superposition to nonlinear creep of polyamide 66 filled with nanoparticles of various sizes

2007

The long-term tensile creep of polyamide 66 and its nanocomposites filled with 1 vol.% TiO2 nanoparticles 21 and 300 nm in diameter is studied. It is assumed that the dominant mechanisms of creep deformation are of viscoelastic nature, while the contribution of plastic strains is not essential in the stress (< 0.6 of the ultimate stress) and time (about 100 hours) ranges considered. The creep isochrones obtained show that the materials exhibit a nonlinear viscoelastic behaviour and the degree of nonlinearity is reduced significantly by incorporation of the nanoparticles. The evolution of viscoelastic strains is less pronounced for the nanocomposite filled with smaller nanoparticles. Smooth …

Stress (mechanics)Nonlinear systemNanocompositeMaterials scienceCreepUltimate tensile strengthGeneral EngineeringCeramics and CompositesStress relaxationRelaxation (physics)Composite materialViscoelasticityComposites Science and Technology
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