Bayesian inference and uncertainty propagation using efficient fractional-order viscoelastic models for dielectric elastomers

Abstract: Dielectric elastomers are employed for a wide variety of adaptive structures. Many of these soft elastomers exhibit significant rate-dependencies in their response. Accurately quantifying this viscoelastic behavior is non-trivial and in many cases a nonlinear modeling framework is required. Fractional-order operators have been applied to modeling viscoelastic behavior for many years, and recent research has shown fractional-order methods to be effective for nonlinear frameworks. This implementation can become … Show more

“…We begin with equation (23) where we can track how Γ L i evolves and combine this evolution with equation (30) to apply our zero stress constraint and obtain the contraction of the longitudinal stretch λ L i during the relaxation period. The numerical procedure used to calculate the fractional order Caputo derivative is given by Miles et al (2021).…”

Finite deformation and fractional order viscoelasticity of an auxetic foam

“…We begin with equation (23) where we can track how Γ L i evolves and combine this evolution with equation (30) to apply our zero stress constraint and obtain the contraction of the longitudinal stretch λ L i during the relaxation period. The numerical procedure used to calculate the fractional order Caputo derivative is given by Miles et al (2021).…”

Finite deformation and fractional order viscoelasticity of an auxetic foam