Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading

Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading

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Elbows under load experience more stress and strain than straight tubes. The strength of the composite tubes plays an important role in their use, the damage under a thermomechanical behavior of a composite tubular structure bent between two linear parts is studied in this work. The HASCHIN criteri...

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Main Authors: Elamine Abdelouahed, M. Mokhtari, H. Benzaama
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2019-06-01
Series:Frattura ed Integrità Strutturale
Subjects:
FEM
Damage
Elbows
Hashin criterion
Shell element
Online Access:https://www.fracturae.com/index.php/fis/article/view/2492
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spelling doaj-e584de8854cd4eccb9d41439e74177f92021-01-27T17:13:48ZengGruppo Italiano FratturaFrattura ed Integrità Strutturale1971-89932019-06-011349Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loadingElamine Abdelouahed0M. Mokhtari1H. Benzaama2Laboratoire LABAB, Ecole Nationale Polytechnique Maurice Audin, Oran, AlgeriaLaboratoire LaRTFM, Ecole Nationale Polytechnique Maurice Audin, Oran, AlgeriaLaboratoire LABAB, Ecole Nationale Polytechnique Maurice Audin, Oran, Algeria Elbows under load experience more stress and strain than straight tubes. The strength of the composite tubes plays an important role in their use, the damage under a thermomechanical behavior of a composite tubular structure bent between two linear parts is studied in this work. The HASCHIN criterion model is used through finite element analysis. The main objective is to predict the effect of the main parameters by curves of torque, using the calculation code ABAQUS. These evaluative parameters are addressed to the geometrical conditions of the elbow, in loading mode on the pressurized structures and to the danger of the defect, hence the advantage of using Shell elements as a structure. The numerical results obtained illustrate that the parameters studied condition the level and the mode of failure as well as the response of composite elbows. https://www.fracturae.com/index.php/fis/article/view/2492FEMDamageElbowsHashin criterionShell element
collection DOAJ
language English
format Article
sources DOAJ
author Elamine Abdelouahed
M. Mokhtari
H. Benzaama
spellingShingle Elamine Abdelouahed
M. Mokhtari
H. Benzaama
Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading
Frattura ed Integrità Strutturale
FEM
Damage
Elbows
Hashin criterion
Shell element
author_facet Elamine Abdelouahed
M. Mokhtari
H. Benzaama
author_sort Elamine Abdelouahed
title Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading
title_short Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading
title_full Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading
title_fullStr Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading
title_full_unstemmed Finite Element Analysis of the thermo-Mechanical Behavior of composite Pipe Elbows under Bending and Pressure loading
title_sort finite element analysis of the thermo-mechanical behavior of composite pipe elbows under bending and pressure loading
publisher Gruppo Italiano Frattura
series Frattura ed Integrità Strutturale
issn 1971-8993
publishDate 2019-06-01
description Elbows under load experience more stress and strain than straight tubes. The strength of the composite tubes plays an important role in their use, the damage under a thermomechanical behavior of a composite tubular structure bent between two linear parts is studied in this work. The HASCHIN criterion model is used through finite element analysis. The main objective is to predict the effect of the main parameters by curves of torque, using the calculation code ABAQUS. These evaluative parameters are addressed to the geometrical conditions of the elbow, in loading mode on the pressurized structures and to the danger of the defect, hence the advantage of using Shell elements as a structure. The numerical results obtained illustrate that the parameters studied condition the level and the mode of failure as well as the response of composite elbows.
topic FEM
Damage
Elbows
Hashin criterion
Shell element
url https://www.fracturae.com/index.php/fis/article/view/2492
work_keys_str_mv AT elamineabdelouahed finiteelementanalysisofthethermomechanicalbehaviorofcompositepipeelbowsunderbendingandpressureloading
AT mmokhtari finiteelementanalysisofthethermomechanicalbehaviorofcompositepipeelbowsunderbendingandpressureloading
AT hbenzaama finiteelementanalysisofthethermomechanicalbehaviorofcompositepipeelbowsunderbendingandpressureloading
_version_ 1724320870252412928

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