6533b856fe1ef96bd12b263c
RESEARCH PRODUCT
Exact Mechanical Hierarchy of Non-Linear Fractional-Order Hereditariness
Massimiliano ZingalesGioacchino AlottaEmanuela Bolognasubject
Conservation lawState variablePhysics and Astronomy (miscellaneous)Hierarchy (mathematics)Scale (ratio)General Mathematicslcsh:MathematicsTime evolutionmechanical hierarchy02 engineering and technologyfractional calculus021001 nanoscience & nanotechnologylcsh:QA1-939Fractional calculusNonlinear systemSuperposition principle020303 mechanical engineering & transports0203 mechanical engineeringChemistry (miscellaneous)non-linear springpotComputer Science (miscellaneous)Applied mathematics0210 nano-technologyfractional calculus; non-linear springpot; mechanical hierarchyMathematicsdescription
Non-local time evolution of material stress/strain is often referred to as material hereditariness. In this paper, the widely used non-linear approach to single integral time non-local mechanics named quasi-linear approach is proposed in the context of fractional differential calculus. The non-linear model of the springpot is defined in terms of a single integral with separable kernel endowed with a non-linear transform of the state variable that allows for the use of Boltzmann superposition. The model represents a self-similar hierarchy that allows for a time-invariance as the result of the application of the conservation laws at any resolution scale. It is shown that the non-linear springpot possess an equivalent mechanical hierarchy in terms of a functionally-graded elastic column resting on viscous dashpots with power-law decay of the material properties. Some numerical applications are reported to show the capabilities of the proposed model.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-04-23 | Symmetry |