Static condensation of peridynamic heat conduction model

Yakubu Kasimu Galadima; Erkan Oterkus; Selda Oterkus

doi:10.1177/10812865221081160

Static condensation of peridynamic heat conduction model

Yakubu Kasimu Galadima, Erkan Oterkus, Selda Oterkus

Naval Architecture, Ocean And Marine Engineering

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Abstract

A model order reduction methodology for reducing the order of the peridynamic transient heat model is proposed. This methodology is based on the static condensation procedure. To set the development of the model reduction procedure on a sound mathematical setting, a nonlocal vector calculus was employed in the formulation of the heat transport problem. The model order reduction framework proposed in this study provides a technique to reduce the dimensionality of a peridynamic transport model while still maintaining accurate prediction of the model response. Moreover, the methodology can be adaptively applied to accommodate different resolution requirements for different sections of the model. Using numerical experiments, the proposed methodology is shown to be capable of accurately reproducing results of the full peridynamic transient heat transport problem.

Original language	English
Pages (from-to)	2689-2714
Number of pages	26
Journal	Mathematics and Mechanics of Solids
Volume	27
Issue number	12
Early online date	5 Mar 2022
DOIs	https://doi.org/10.1177/10812865221081160
Publication status	Published - Dec 2022

Keywords

continuum theory
peridynamics
model order reduction
static condensation
nonlocal calculus
transient heat model

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10.1177/10812865221081160Licence: CC BY-NC 4.0

Galadima-etal-MMS-2022-Static-condensation-of-peridynamic-heat-conductionFinal published version, 7.24 MBLicence: CC BY-NC 4.0

1 Finished

Determination of the Length Scale Parameter in Peridynamics
Oterkus, E. & Oterkus, S.
Air Force Office of Scientific Research AFOSR (the)
20/08/18 → 19/08/21
Project: Research

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title = "Static condensation of peridynamic heat conduction model",

abstract = "A model order reduction methodology for reducing the order of the peridynamic transient heat model is proposed. This methodology is based on the static condensation procedure. To set the development of the model reduction procedure on a sound mathematical setting, a nonlocal vector calculus was employed in the formulation of the heat transport problem. The model order reduction framework proposed in this study provides a technique to reduce the dimensionality of a peridynamic transport model while still maintaining accurate prediction of the model response. Moreover, the methodology can be adaptively applied to accommodate different resolution requirements for different sections of the model. Using numerical experiments, the proposed methodology is shown to be capable of accurately reproducing results of the full peridynamic transient heat transport problem.",

keywords = "continuum theory, peridynamics, model order reduction, static condensation, nonlocal calculus, transient heat model",

author = "Galadima, {Yakubu Kasimu} and Erkan Oterkus and Selda Oterkus",

year = "2022",

month = dec,

doi = "10.1177/10812865221081160",

language = "English",

volume = "27",

pages = "2689--2714",

journal = "Mathematics and Mechanics of Solids",

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T1 - Static condensation of peridynamic heat conduction model

AU - Galadima, Yakubu Kasimu

AU - Oterkus, Erkan

AU - Oterkus, Selda

PY - 2022/12

Y1 - 2022/12

N2 - A model order reduction methodology for reducing the order of the peridynamic transient heat model is proposed. This methodology is based on the static condensation procedure. To set the development of the model reduction procedure on a sound mathematical setting, a nonlocal vector calculus was employed in the formulation of the heat transport problem. The model order reduction framework proposed in this study provides a technique to reduce the dimensionality of a peridynamic transport model while still maintaining accurate prediction of the model response. Moreover, the methodology can be adaptively applied to accommodate different resolution requirements for different sections of the model. Using numerical experiments, the proposed methodology is shown to be capable of accurately reproducing results of the full peridynamic transient heat transport problem.

AB - A model order reduction methodology for reducing the order of the peridynamic transient heat model is proposed. This methodology is based on the static condensation procedure. To set the development of the model reduction procedure on a sound mathematical setting, a nonlocal vector calculus was employed in the formulation of the heat transport problem. The model order reduction framework proposed in this study provides a technique to reduce the dimensionality of a peridynamic transport model while still maintaining accurate prediction of the model response. Moreover, the methodology can be adaptively applied to accommodate different resolution requirements for different sections of the model. Using numerical experiments, the proposed methodology is shown to be capable of accurately reproducing results of the full peridynamic transient heat transport problem.

KW - continuum theory

KW - peridynamics

KW - model order reduction

KW - static condensation

KW - nonlocal calculus

KW - transient heat model

U2 - 10.1177/10812865221081160

DO - 10.1177/10812865221081160

M3 - Article

VL - 27

SP - 2689

EP - 2714

JO - Mathematics and Mechanics of Solids

JF - Mathematics and Mechanics of Solids

SN - 1081-2865

IS - 12

ER -

Static condensation of peridynamic heat conduction model

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Determination of the Length Scale Parameter in Peridynamics

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