Variational asymptotic homogenization of beam-like square lattice structures

Emilio Barchiesi; Sergei Khakalo

doi:10.1177/1081286519843155

Variational asymptotic homogenization of beam-like square lattice structures

Emilio Barchiesi^*, Sergei Khakalo

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

39 Citations (Scopus)

Abstract

By means of variational asymptotic homogenization, using Piola's meso-macro ansatz, we derive the linear Timoshenko beam as the macro-scale limit of a meso-scale beam-like periodic planar square lattice structure. By considering benchmarks in statics and dynamics, meso-to-macro convergence is numerically analyzed. At the finest micro-scale, a 2D assembly of elastic, geometrically linear, isotropic and homogeneous Cauchy continua in plane strain with different material parameters is considered. Using this description, we calibrate the meso-scale model using standard methodology and, by exploiting the meso-to-macro homogenization scaling laws, we recover bending and shear Timoshenko beam moduli. It turns out that the Timoshenko beam found in this way and the finest-scale description based on the Cauchy continuum are in excellent agreement.

Original language	English
Pages (from-to)	3295-3318
Number of pages	24
Journal	Mathematics and Mechanics of Solids
Volume	24
Issue number	10
DOIs	https://doi.org/10.1177/1081286519843155
Publication status	Published - Oct 2019
MoE publication type	A1 Journal article-refereed

Keywords

Variational asymptotic homogenization
beam-like square lattice structures
Timoshenko beam
multiscale description
Piola's ansatz
DOUBLE-POROSITY HOMOGENIZATION
IN-SITU EXPERIMENTS
LARGE DEFORMATIONS
STRAIN GRADIENT
PANTOGRAPHIC SHEETS
EXISTING BUILDINGS
SEISMIC ANALYSIS
ELASTICITY
MODELS
DYNAMICS

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10.1177/1081286519843155

Isogeometric adaptive methods for thin-walled structures– with applications from architectural and industrial design in structural and mechanical engineering
Niiranen, J. (Principal investigator)
01/09/2016 → 31/08/2018
Project: Academy of Finland: Other research funding
Isogeometric adaptive methods for thin-walled structures- with applications from architectural and industrial design in structural and mechanical engineering
Niiranen, J. (Principal investigator)
01/09/2013 → 31/08/2018
Project: Academy of Finland: Other research funding

Cite this

@article{1a4e89b12a4f4f8bbd3c803e0a93be03,

title = "Variational asymptotic homogenization of beam-like square lattice structures",

abstract = "By means of variational asymptotic homogenization, using Piola's meso-macro ansatz, we derive the linear Timoshenko beam as the macro-scale limit of a meso-scale beam-like periodic planar square lattice structure. By considering benchmarks in statics and dynamics, meso-to-macro convergence is numerically analyzed. At the finest micro-scale, a 2D assembly of elastic, geometrically linear, isotropic and homogeneous Cauchy continua in plane strain with different material parameters is considered. Using this description, we calibrate the meso-scale model using standard methodology and, by exploiting the meso-to-macro homogenization scaling laws, we recover bending and shear Timoshenko beam moduli. It turns out that the Timoshenko beam found in this way and the finest-scale description based on the Cauchy continuum are in excellent agreement.",

keywords = "Variational asymptotic homogenization, beam-like square lattice structures, Timoshenko beam, multiscale description, Piola's ansatz, DOUBLE-POROSITY HOMOGENIZATION, IN-SITU EXPERIMENTS, LARGE DEFORMATIONS, STRAIN GRADIENT, PANTOGRAPHIC SHEETS, EXISTING BUILDINGS, SEISMIC ANALYSIS, ELASTICITY, MODELS, DYNAMICS",

author = "Emilio Barchiesi and Sergei Khakalo",

year = "2019",

month = oct,

doi = "10.1177/1081286519843155",

language = "English",

volume = "24",

pages = "3295--3318",

journal = "Mathematics and Mechanics of Solids",

issn = "1081-2865",

publisher = "Sage Publishing",

number = "10",

}

TY - JOUR

T1 - Variational asymptotic homogenization of beam-like square lattice structures

AU - Barchiesi, Emilio

AU - Khakalo, Sergei

PY - 2019/10

Y1 - 2019/10

N2 - By means of variational asymptotic homogenization, using Piola's meso-macro ansatz, we derive the linear Timoshenko beam as the macro-scale limit of a meso-scale beam-like periodic planar square lattice structure. By considering benchmarks in statics and dynamics, meso-to-macro convergence is numerically analyzed. At the finest micro-scale, a 2D assembly of elastic, geometrically linear, isotropic and homogeneous Cauchy continua in plane strain with different material parameters is considered. Using this description, we calibrate the meso-scale model using standard methodology and, by exploiting the meso-to-macro homogenization scaling laws, we recover bending and shear Timoshenko beam moduli. It turns out that the Timoshenko beam found in this way and the finest-scale description based on the Cauchy continuum are in excellent agreement.

AB - By means of variational asymptotic homogenization, using Piola's meso-macro ansatz, we derive the linear Timoshenko beam as the macro-scale limit of a meso-scale beam-like periodic planar square lattice structure. By considering benchmarks in statics and dynamics, meso-to-macro convergence is numerically analyzed. At the finest micro-scale, a 2D assembly of elastic, geometrically linear, isotropic and homogeneous Cauchy continua in plane strain with different material parameters is considered. Using this description, we calibrate the meso-scale model using standard methodology and, by exploiting the meso-to-macro homogenization scaling laws, we recover bending and shear Timoshenko beam moduli. It turns out that the Timoshenko beam found in this way and the finest-scale description based on the Cauchy continuum are in excellent agreement.

KW - Variational asymptotic homogenization

KW - beam-like square lattice structures

KW - Timoshenko beam

KW - multiscale description

KW - Piola's ansatz

KW - DOUBLE-POROSITY HOMOGENIZATION

KW - IN-SITU EXPERIMENTS

KW - LARGE DEFORMATIONS

KW - STRAIN GRADIENT

KW - PANTOGRAPHIC SHEETS

KW - EXISTING BUILDINGS

KW - SEISMIC ANALYSIS

KW - ELASTICITY

KW - MODELS

KW - DYNAMICS

U2 - 10.1177/1081286519843155

DO - 10.1177/1081286519843155

M3 - Article

SN - 1081-2865

VL - 24

SP - 3295

EP - 3318

JO - Mathematics and Mechanics of Solids

JF - Mathematics and Mechanics of Solids

IS - 10

ER -

Variational asymptotic homogenization of beam-like square lattice structures

Abstract

Keywords

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Projects

Isogeometric adaptive methods for thin-walled structures– with applications from architectural and industrial design in structural and mechanical engineering

Isogeometric adaptive methods for thin-walled structures- with applications from architectural and industrial design in structural and mechanical engineering

Cite this