A consistent stress-driven nonlocal integral model for nonisothermal structural analysis of elastic nano- and microbeams is developed and shown equivalent to differential equations with higher-order constitutive boundary conditions using the Helmholtz kernel.
On vibrations of nonlo- cal rods: Boundary conditions, exact solutions and their asymptotics
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Stress-driven modeling of nonlocal thermoelastic behavior of nanobeams
A consistent stress-driven nonlocal integral model for nonisothermal structural analysis of elastic nano- and microbeams is developed and shown equivalent to differential equations with higher-order constitutive boundary conditions using the Helmholtz kernel.