05264nam 2201345z- 450 9910637780903321202212063-0365-5257-X(CKB)5470000001631728(oapen)https://directory.doabooks.org/handle/20.500.12854/94584(oapen)doab94584(EXLCZ)99547000000163172820202212d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMultibody Systems with Flexible ElementsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (280 p.)3-0365-5258-8 Multibody systems with flexible elements represent mechanical systems composed of many elastic (and rigid) interconnected bodies meeting a functional, technical, or biological assembly. The displacement of each or some of the elements of the system is generally large and cannot be neglected in mechanical modeling. The study of these multibody systems covers many industrial fields, but also has applications in medicine, sports, and art. The systematic treatment of the dynamic behavior of interconnected bodies has led to an important number of formalisms for multibody systems within mechanics. At present, this formalism is used in large engineering fields, especially robotics and vehicle dynamics. The formalism of multibody systems offers a means of algorithmic analysis, assisted by computers, and a means of simulating and optimizing an arbitrary movement of a possibly high number of elastic bodies in the connection. The domain where researchers apply these methods are robotics, simulations of the dynamics of vehicles, biomechanics, aerospace engineering (helicopters and the behavior of cars in a gravitational field), internal combustion engines, gearboxes, transmissions, mechanisms, the cellulose industry, simulation of particle behavior (granulated particles and molecules), dynamic simulation, military applications, computer games, medicine, and rehabilitation.History of engineering & technologybicsscTechnology: general issuesbicsscAedes Aegyptiaileronanalytical dynamicsasymmetryboltconceptual aircraft designconserved quantitydampingdeciledynamic rigiditydynamicseccentric trajectoryelastic bondselastic characteristicelastic couplingelastic elementsenergy of accelerationsexperimental transitory vibrating regimeExtreme Light InfrastructureFenchel-Legendre transformfinite elementfinite element methodfinite element method (FEM)flapflexible couplingfractional derivativeFubini theoremgamma rayGibbs-AppellHilbert's inequalityimpulsive controlinitial matrixinsulationjoint time-frequency analysisKane's equationsLagrange's equationsLaplace transformslaserLight Sport Aircraftlinear motionmagnetorheological fluidmatrix pencil methodmeasure of skewnessMonte Carlo algorithmmosquito borne diseasesmultibodymultibody system (MBS)multibody systems with flexible elementsn/aNoether theorynon-collinearly shaftsnon-metallic elementnon-metallic elementsnonlinear systemnuclear installationnumerical simulationplanar mechanismProny methodpropulsion drivereusable launch vehiclesroboticsskin tissuessoft landingstabilitystiffnessstiffness matrixstrands wire ropesustainabilitysymmetric profilesymmetrythermal damagestime scaletime scalesvibrationsweight estimationwind water pumpwingWolbachia invasionHistory of engineering & technologyTechnology: general issuesMarin Marinedt878542Baleanu DumitruedtVlase SorinedtMarin MarinothBaleanu DumitruothVlase SorinothBOOK9910637780903321Multibody Systems with Flexible Elements3022569UNINA