Nonlinear deformation of circular discrete ribbed plate under influence of pulse loading
Rustam Khalmuradov, Utkir A. Nishonov
Abstract
The stress-strain state of a circular disc, discretely finned in a circle, under the influence of the pulse loading, is numerically investigated. Thus the geometric nonlinearity between displacement and deformation is taken into account. The structure consists of boarding and reinforced ribs, the materials of which are the same and obey Hooke's law. The sections of the ribs are constant. The height of the ribs and their locations are specified using a unit function. It is considered that the plate is deformed under the influence of the pulsed loading. A numerical method is used to solve the problem.
Topics & Concepts
Deformation (meteorology)Rib cageNonlinear systemPulse (music)Displacement (psychology)Stress (linguistics)Materials scienceMechanicsConstant (computer programming)Structural engineeringGeometryComposite materialPhysicsMathematicsOpticsEngineeringComputer sciencePsychologyQuantum mechanicsPsychotherapistProgramming languagePhilosophyLinguisticsDetectorElasticity and Wave PropagationStructural mechanics and materialsEngineering and Agricultural Innovations