Elliptic functions and lattice sums for effective properties of heterogeneous materials

Elliptic functions and lattice sums for effective properties of heterogeneous materials

Effective properties of fiber-reinforced composites can be estimated by applying the asymptotic homogenization method. Analytical solutions are possible for infinite long circular fibers based on the elliptic quasi-periodic Weierstrass Zeta function. This process leads to numerical convergences issu...

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Bibliographic Details
Published in:Continuum mechanics and thermodynamics Vol. 33; no. 4; pp. 1621 - 1636
Main Authors: Espinosa-Almeyda, Y., Rodríguez-Ramos, R., Camacho-Montes, H., Guinovart-Díaz, R., Sabina, F. J.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-07-2021
Springer
Springer Nature B.V
Subjects:
Asymptotic methods
Classical and Continuum Physics
Composite materials
Convergence
Elliptic functions
Engineering Thermodynamics
Exact solutions
Fiber composites
Fibers
Heat and Mass Transfer
Homogenization
Lattices (mathematics)
Original Article
Partial differential equations
Physics
Physics and Astronomy
Structural Materials
Sums
Theoretical and Applied Mechanics
Asymptotic homogenization method
Parallelogram periodic unit cell
Lattice sums
Elliptic Weierstrass function
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Summary:Effective properties of fiber-reinforced composites can be estimated by applying the asymptotic homogenization method. Analytical solutions are possible for infinite long circular fibers based on the elliptic quasi-periodic Weierstrass Zeta function. This process leads to numerical convergences issues related to lattice sums calculations. The lattice sums original series converge slowly, which make the calculation difficult. This problem needs to be addressed because effective properties are highly sensitive to these values. Therefore, a systematic review and analysis for the lattice sums are a necessity. In the present work, the Eisenstein–Rayleigh lattices sums are reviewed and numerically implemented for fiber-reinforced composites with parallelogram unit periodic cell whose fibers are centered, or not, at the coordinate origin. Numerical values are reported and compared with available data in the literature obtaining good agreements. In this work, new Eisenstein–Rayleigh lattice sums are obtained that are easy to implement and a set of tables with numerical values are given.
ISSN:0935-1175
1432-0959
DOI:10.1007/s00161-021-00997-2