SPHMPS 1.0: a smoothed-particle-hydrodynamics multi-physics solver

Iman Farahbakhsh; Benyamin Barani Nia; Erkan Oterkus

doi:10.1016/j.simpa.2024.100640

SPHMPS 1.0: a smoothed-particle-hydrodynamics multi-physics solver

Iman Farahbakhsh^*, Benyamin Barani Nia, Erkan Oterkus

^*Corresponding author for this work

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

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Abstract

SPHMPS 1.0, developed within a Lagrangian framework, offers a robust solution for modeling multi-structure collision problems involving large plastic deformation and inherent thermal effects. Utilizing its innovative algorithm, SPHMPS 1.0 emerges as a versatile tool for researchers in the field of fluid-rigid-elastic structure interactions. By providing a comprehensive framework tailored to address these complex phenomena, SPHMPS 1.0 facilitates reproducible, extendable, and efficient research endeavors. Implemented in Fortran, its flexible algorithm ensures adaptability to a wide range of applications requiring solutions for fluid-rigid-elastic structure interaction problems.

Original language	English
Article number	100640
Number of pages	5
Journal	Software Impacts
Volume	20
Early online date	3 Apr 2024
DOIs	https://doi.org/10.1016/j.simpa.2024.100640
Publication status	Published - 1 May 2024

Keywords

SPHMPS
structure collision
material flow
smoothed particle hydrodynamics

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10.1016/j.simpa.2024.100640Licence: CC BY-NC-ND 4.0

Farahbakhsh-etal-SI-2024-a-smoothed-particle-hydrodynamics-multi-physics-solverFinal published version, 730 KBLicence: CC BY-NC-ND 4.0

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title = "SPHMPS 1.0: a smoothed-particle-hydrodynamics multi-physics solver",

abstract = "SPHMPS 1.0, developed within a Lagrangian framework, offers a robust solution for modeling multi-structure collision problems involving large plastic deformation and inherent thermal effects. Utilizing its innovative algorithm, SPHMPS 1.0 emerges as a versatile tool for researchers in the field of fluid-rigid-elastic structure interactions. By providing a comprehensive framework tailored to address these complex phenomena, SPHMPS 1.0 facilitates reproducible, extendable, and efficient research endeavors. Implemented in Fortran, its flexible algorithm ensures adaptability to a wide range of applications requiring solutions for fluid-rigid-elastic structure interaction problems.",

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author = "Iman Farahbakhsh and {Barani Nia}, Benyamin and Erkan Oterkus",

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doi = "10.1016/j.simpa.2024.100640",

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AU - Farahbakhsh, Iman

AU - Barani Nia, Benyamin

AU - Oterkus, Erkan

PY - 2024/5/1

Y1 - 2024/5/1

N2 - SPHMPS 1.0, developed within a Lagrangian framework, offers a robust solution for modeling multi-structure collision problems involving large plastic deformation and inherent thermal effects. Utilizing its innovative algorithm, SPHMPS 1.0 emerges as a versatile tool for researchers in the field of fluid-rigid-elastic structure interactions. By providing a comprehensive framework tailored to address these complex phenomena, SPHMPS 1.0 facilitates reproducible, extendable, and efficient research endeavors. Implemented in Fortran, its flexible algorithm ensures adaptability to a wide range of applications requiring solutions for fluid-rigid-elastic structure interaction problems.

AB - SPHMPS 1.0, developed within a Lagrangian framework, offers a robust solution for modeling multi-structure collision problems involving large plastic deformation and inherent thermal effects. Utilizing its innovative algorithm, SPHMPS 1.0 emerges as a versatile tool for researchers in the field of fluid-rigid-elastic structure interactions. By providing a comprehensive framework tailored to address these complex phenomena, SPHMPS 1.0 facilitates reproducible, extendable, and efficient research endeavors. Implemented in Fortran, its flexible algorithm ensures adaptability to a wide range of applications requiring solutions for fluid-rigid-elastic structure interaction problems.

KW - SPHMPS

KW - structure collision

KW - material flow

KW - smoothed particle hydrodynamics

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DO - 10.1016/j.simpa.2024.100640

M3 - Article

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VL - 20

JO - Software Impacts

JF - Software Impacts

M1 - 100640

ER -

SPHMPS 1.0: a smoothed-particle-hydrodynamics multi-physics solver

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Keywords

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