Search results for "Fundamental solution"

showing 10 items of 29 documents

Magneto-Electro-Elastic Bimorph Analysis by the Boundary Element Method

2008

The influence of the magnetic configuration on the behavior of magneto-electro-elastic bimorph beams is analyzed by using a boundary element approach. The problem is formulated by using the generalized displacements and generalized tractions. The boundary integral equation formulation is obtained by extending the reciprocity theorem to magneto-electro-elastic problems; it is numerically implemented by using the boundary element method multidomain technique to address problems involving nonhomogeneous configurations. Results under different magnetic configurations are compared highlighting the characteristic features of magnetopiezoelectric behavior particularly focusing on the link between …

Materials scienceMechanical EngineeringGeneral MathematicsMathematical analysisBimorphGeometrySingular boundary methodBoundary knot methodElectromagnetic inductionMechanics of MaterialsAnalytic element methodMethod of fundamental solutionsGeneral Materials ScienceSettore ING-IND/04 - Costruzioni E Strutture AerospazialiBoundary element methodMagnetomagneto-electro-elastic bimorph beams boundary element approach magnetopiezoelectric interlaminar stressesCivil and Structural Engineering
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Interlaminar stresses in laminated composite beam-type structures under shear/bending

2000

A boundary integral model for composite laminates under out-of-plane shear/bending is presented. The formulation proposed allows one to determine the elastic response of generally stacked composite laminates having general shape of the cross section. The integral equations governing the ply behavior within the laminate are deduced starting from the reciprocity theorem for beam-type structures. The ply integral equations are obtained by employing the analytical expression of the fundamental solution of generalized plane strain anisotropic problems. The laminate model is completed by imposing the displacement and stress continuity along the interfaces and the external boundary conditions. The…

Mathematical analysisFundamental solutionAerospace EngineeringGeometryBoundary value problemComposite laminatesAnisotropyBoundary element methodIntegral equationPlane stressMathematicsStress concentrationAIAA Journal
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Spherical Harmonics Expansion of Fundamental Solutions and Their Derivatives for Homogeneous Elliptic Operators

2017

In this work, a unified scheme for computing the fundamental solutions of a three-dimensional homogeneous elliptic partial differential operator is presented. The scheme is based on the Rayleigh expansion and on the Fourier representation of a homogeneous function. The scheme has the advantage of expressing the fundamental solutions and their derivatives up to the desired order without any term-by-term differentiation. Moreover, the coefficients of the series need to be computed only once, thus making the presented scheme attractive for numerical implementation. The scheme is employed to compute the fundamental solution of isotropic elasticity showing that the spherical harmonics expansion…

Mathematical analysisZonal spherical harmonicsSpherical harmonics02 engineering and technology01 natural sciencesboundary element methodComputer Science Applications010101 applied mathematicsElliptic operatorintegral equation020303 mechanical engineering & transports0203 mechanical engineeringModeling and SimulationSpin-weighted spherical harmonicsFundamental solutionVector spherical harmonicsspherical harmonicelliptic operator0101 mathematicsFundamental solutionTensor operatorMathematicsSolid harmonicsJournal of Multiscale Modelling
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Symmetric boundary element method versus finite element method

2002

The paper examines the effectiveness of the symmetric boundary element formulation when the continuum body is subdivided into large elements called macro-elements. The approach proposed combines a strong reduction of variables with an elastic solution close to the real response. Indeed, if the displacement method is used, this approach permits one to determine for every macro-element a relationship connecting the weighted traction vector defined on the sides of the interface boundary with the node displacement vector of the same boundary and with the external action vector. Such a strategy is very similar to that followed through the finite element method, but with the advantages of having …

Mechanical EngineeringMathematical analysisComputational MechanicsGeneral Physics and AstronomyGeometryMixed finite element methodSingular boundary methodBoundary knot methodFinite element methodComputer Science ApplicationsBoundary elementMechanics of MaterialsAnalytic element methodSymmetric boundary element methodMethod of fundamental solutionsSubstructuringSettore ICAR/08 - Scienza Delle CostruzioniBoundary element methodMathematicsExtended finite element method
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Bending stress fields in composite laminate beams by a boundary integral formulation

1999

Abstract The elasticity of a composite laminate under bending loads is approached through a boundary integral formulation and solved by the boundary element method. The integral equations governing the behaviour of each layer within the laminate, are deduced using the reciprocity theorem. Exact analytical singular solutions of the generalized orthotropic elasticity, i.e. the fundamental solutions of the problem, are employed as the kernels of the integral equation. The formulation does not make any assumption as to the nature of the elastic response and it allows consideration of general section geometries and stacking sequences. The solution is obtained through the enforcement of the inter…

Mechanical EngineeringMathematical analysisMixed boundary conditionSingular boundary methodOrthotropic materialIntegral equationComputer Science ApplicationsModeling and SimulationMethod of fundamental solutionsGeneral Materials ScienceBoundary value problemElasticity (economics)Boundary element methodCivil and Structural EngineeringMathematicsComputers & Structures
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An alternative formulation of the boundary element method

1982

Abstract The paper suggests an alternative formulation of the Boundary Element Method, in which singular solutions generated by unit dislocations are required and moreover the stresses at the interior points of the body are directly computed from the boundary quantities, without passing through the displacements. Relationships between the singular solutions for unit dislocation and unit force are derived.

Modelling and SimulationApplied MathematicsModeling and SimulationMathematical analysisBoundary (topology)Method of fundamental solutionsMixed boundary conditionDislocationSingular boundary methodBoundary knot methodUnit (ring theory)Boundary element methodMathematicsApplied Mathematical Modelling
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On the numerical solution of axisymmetric domain optimization problems by dual finite element method

1994

Shape optimization of an axisymmetric three-dimensional domain with an elliptic boundary value state problem is solved. Since the cost functional is given in terms of the cogradient of the solution, a dual finite element method based on the minimum of complementary energy principle is used. © 1994 John Wiley & Sons, Inc.

Numerical AnalysisFinite element limit analysisApplied MathematicsMathematical analysisMixed finite element methodBoundary knot methodFinite element methodComputational MathematicsMethod of fundamental solutionsShape optimizationAnalysisMathematicsExtended finite element methodFree energy principleNumerical Methods for Partial Differential Equations
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Convolution operators with a fundamental solution of finite order

1995

Overlap–add methodNewtonian potentialGeneral MathematicsMathematical analysisFundamental solutionMethod of fundamental solutionsConvolution theoremConvolution powerCircular convolutionConvolutionMathematicsArchiv der Mathematik
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Three-dimensional axisymmetric cloak based on the cancellation of acoustic scattering from a sphere.

2013

This Letter presents the design, fabrication, and experimental characterization of a directional threedimensional acoustic cloak for airborne sound. The cloak consists of 60 concentric acoustically rigid tori surrounding the cloaked object, a sphere of radius 4 cm. The major radii and positions of the tori along the symmetry axis are determined using the condition of complete cancellation of the acoustic field scattered from the sphere. They are obtained through an optimization technique that combines genetic algorithm and simulated annealing. The scattering cross section of the sphere with the cloak, which is the magnitude that is minimized, is calculated using the method of fundamental so…

PhysicsRadiationDesignScatteringbusiness.industryAcoustic cloaksRotational symmetryCloakPhysics::OpticsGeneral Physics and AstronomyTorusRadiusSymmetry (physics)TECNOLOGIA ELECTRONICAOpticsFISICA APLICADAMethod of fundamental solutionsbusinessAcoustical measurements and instrumentationPhysical review letters
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A novel numerical meshless approach for electric potential estimation in transcranial stimulation

2015

In this paper, a first application of the method of fundamental solutions in estimating the electric potential and the spatial current density distribution in the brain due to transcranial stimulation, is presented. The coupled boundary value p roblems for the electric potential are solved in a meshless way, so avoiding the use of grid based numerical methods. A multi-spherical geometry is considered and numerical results are discussed.

Regularized meshless methodMathematical optimizationmethod of fundamental solutionQuantitative Biology::Neurons and CognitionNumerical analysistranscranial electrical stimulationCurrent density distributionGrid basedBoundary valuesPhysics and Astronomy (all)Settore MAT/08 - Analisi NumericaSettore ING-IND/31 - ElettrotecnicaApplied mathematicsMethod of fundamental solutionsMeshfree methodsmeshless methodElectric potentialnumerical approximationMathematics
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