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Size-sensitive modeling of thermoelastic damping in rotating nanoscale rings with rectangular cross section using nonlocal theory and the Moore–Gibson–Thompson heat equation

Suleiman Ibrahim Mohammad, Hamza Abu Owida, Sabir Widatalla, H. Adarsha, Asokan Vasudevan, Krishan Kumar Sah, Ali Kamil Kareem, Ali Khelef, I.B. Sapaev, Nurbike Zaurbekova

2025Archive of Applied Mechanics5 citationsDOI

Topics & Concepts

Thermoelastic dampingHeat equationThermal conductionParametric statisticsField (mathematics)PhysicsEquations of motionMechanicsCross section (physics)ThermalClassical mechanicsHeat transferScale (ratio)Ring (chemistry)Dynamics (music)Relativistic heat conductionNanoscopic scaleMaterials scienceMathematical analysisMotion (physics)Length scaleEnergy (signal processing)Heat generationDomain (mathematical analysis)Time steppingMaterial propertiesParametric equationHeat flowStatistical physicsNonlocal and gradient elasticity in micro/nano structuresThermoelastic and Magnetoelastic PhenomenaComposite Structure Analysis and Optimization
Size-sensitive modeling of thermoelastic damping in rotating nanoscale rings with rectangular cross section using nonlocal theory and the Moore–Gibson–Thompson heat equation | Litcius