Asymptotics and Summation of the Effective Properties of Suspensions, Simple Liquids and Composites

Gluzman, S.

doi:10.3390/sym14091912

Cited by 3 publications

(1 citation statement)

References 108 publications

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“…Sometimes, more complicated PDEs can be reduced to the cascades of ODEs [57]. The solutions to PDEs when homogenized lead to various expansions of effective transport coefficients, which can be resummed by various methods including Borel summation [58]. See multiple examples of similar problems in the paper by Gluzman, Symmetry (2022), on asymptotics and summation of the effective properties of suspensions, liquids and composites.…”

Section: Three-dimensional Trapmentioning

confidence: 99%

Borel Transform and Scale-Invariant Fractional Derivatives United

Gluzman¹

2023

Symmetry

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The method of Borel transformation for the summation of asymptotic expansions with the power-law asymptotic behavior at infinity is combined with elements of scale-invariant fractional analysis with the goal of calculating the critical amplitudes. The fractional order of specially designed scale-invariant fractional derivatives u is used as a control parameter to be defined uniquely from u-optimization. For resummation of the transformed expansions, we employed the self-similar iterated roots. We also consider a complementary optimization, called b-optimization with the number of iterations b as an alternative fractional control parameter. The method of scale-invariant Fractional Borel Summation consists of three constructive steps. The first step corresponds to u-optimization of the amplitudes with fixed parameter b. When the first step fails, the second step corresponds to b-optimization of the amplitudes with fixed parameter u. However, when the two steps fail, the third step corresponds to the simplified, Borel-light technique. The marginal amplitude should be found by means of the self-similar iterated roots constructed for the transformed series, optimized with either of the two above approaches and corrected with a diagonal Padé approximants. The examples are given when the complementary optimizations,“horses-for-courses” approach outperforms other analytical methods in calculation of critical amplitudes.

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Section: Three-dimensional Trapmentioning

confidence: 99%

Borel Transform and Scale-Invariant Fractional Derivatives United

Gluzman¹

2023

Symmetry

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A Direct Method for Acoustic Waves in Unidirectional Fiber-Filled Viscous Fluids

2023

J. Vib. Eng. Technol.

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Critical Permeability from Resummation

Gluzman

2024

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Special calculation methods are presented for critical indices and amplitudes for the permeability of thin wavy channels dependent on the waviness. The effective permeability and wetted perimeter of the two-dimensional random percolating media are considered as well. A special mathematical framework is developed to characterize the dependencies on porosities, critical points, and indices. Various approximation techniques are applied without involving popular lubrication approximation in any sense. In particular, the Borel summation technique is applied to the effective polynomial approximations with or without optimization. Minimal difference and minimal derivative optimal conditions are adapted to calculations of critical indices and amplitudes for the effective permeability of thin wavy channels. Critical indices, amplitudes, and thresholds are obtained for the effective permeability and wetted perimeter of the two-dimensional percolating random media. Closed-form expressions for all porosities, critical points, and indices are calculated from the polynomial approximations for the first time.

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Asymptotics and Summation of the Effective Properties of Suspensions, Simple Liquids and Composites

Cited by 3 publications

References 108 publications

Borel Transform and Scale-Invariant Fractional Derivatives United

Borel Transform and Scale-Invariant Fractional Derivatives United

A Direct Method for Acoustic Waves in Unidirectional Fiber-Filled Viscous Fluids

Critical Permeability from Resummation

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