Double horizon peridynamics

Zhenghao Yang; Erkan Oterkus; Selda Oterkus; Chien-Ching Ma

doi:10.1177/10812865231173686

Double horizon peridynamics

Zhenghao Yang, Erkan Oterkus, Selda Oterkus, Chien-Ching Ma

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

4 Citations (Scopus)

35 Downloads (Pure)

Abstract

In this study, a new double horizon peridynamics formulation was introduced by utilising two horizons instead of one as in traditional peridynamics. The new approach allows utilisation of large horizon sizes by controlling the size of the inner horizon size. To demonstrate the capability of the current approach, four different numerical cases were examined by considering static and dynamic conditions, different boundary and initial conditions, and different outer and inner horizon size values. For both static and dynamic cases, it was observed that as the inner horizon decreases, peridynamic solutions converge to classical continuum mechanics solutions even by using a larger horizon size value. Therefore, the proposed approach can serve as an alternative approach to improve computational efficiency of peridynamic simulations by obtaining accurate results with larger horizon sizes.

Original language	English
Pages (from-to)	2531-2549
Number of pages	19
Journal	Mathematics and Mechanics of Solids
Volume	28
Issue number	11
Early online date	17 May 2023
DOIs	https://doi.org/10.1177/10812865231173686
Publication status	Published - 30 Nov 2023

Funding

The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This material is based upon work supported by the Air Force Office of Scientific Research under award number FA9550-18-1-7004.

Keywords

peridynamics
continuum mechanics
double horizon peridynamics

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10.1177/10812865231173686Licence: CC BY-NC 4.0

Yang-etal-MMS-2023-Double-horizon-peridynamicsFinal published version, 2.25 MBLicence: CC BY-NC 4.0

Cite this

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title = "Double horizon peridynamics",

abstract = "In this study, a new double horizon peridynamics formulation was introduced by utilising two horizons instead of one as in traditional peridynamics. The new approach allows utilisation of large horizon sizes by controlling the size of the inner horizon size. To demonstrate the capability of the current approach, four different numerical cases were examined by considering static and dynamic conditions, different boundary and initial conditions, and different outer and inner horizon size values. For both static and dynamic cases, it was observed that as the inner horizon decreases, peridynamic solutions converge to classical continuum mechanics solutions even by using a larger horizon size value. Therefore, the proposed approach can serve as an alternative approach to improve computational efficiency of peridynamic simulations by obtaining accurate results with larger horizon sizes.",

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author = "Zhenghao Yang and Erkan Oterkus and Selda Oterkus and Chien-Ching Ma",

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T1 - Double horizon peridynamics

AU - Yang, Zhenghao

AU - Oterkus, Erkan

AU - Oterkus, Selda

AU - Ma, Chien-Ching

PY - 2023/11/30

Y1 - 2023/11/30

N2 - In this study, a new double horizon peridynamics formulation was introduced by utilising two horizons instead of one as in traditional peridynamics. The new approach allows utilisation of large horizon sizes by controlling the size of the inner horizon size. To demonstrate the capability of the current approach, four different numerical cases were examined by considering static and dynamic conditions, different boundary and initial conditions, and different outer and inner horizon size values. For both static and dynamic cases, it was observed that as the inner horizon decreases, peridynamic solutions converge to classical continuum mechanics solutions even by using a larger horizon size value. Therefore, the proposed approach can serve as an alternative approach to improve computational efficiency of peridynamic simulations by obtaining accurate results with larger horizon sizes.

AB - In this study, a new double horizon peridynamics formulation was introduced by utilising two horizons instead of one as in traditional peridynamics. The new approach allows utilisation of large horizon sizes by controlling the size of the inner horizon size. To demonstrate the capability of the current approach, four different numerical cases were examined by considering static and dynamic conditions, different boundary and initial conditions, and different outer and inner horizon size values. For both static and dynamic cases, it was observed that as the inner horizon decreases, peridynamic solutions converge to classical continuum mechanics solutions even by using a larger horizon size value. Therefore, the proposed approach can serve as an alternative approach to improve computational efficiency of peridynamic simulations by obtaining accurate results with larger horizon sizes.

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KW - double horizon peridynamics

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SP - 2531

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JO - Mathematics and Mechanics of Solids

JF - Mathematics and Mechanics of Solids

IS - 11

ER -

Double horizon peridynamics

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Determination of the Length Scale Parameter in Peridynamics

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Double horizon peridynamics

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Determination of the Length Scale Parameter in Peridynamics

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