Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis

Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis

Threaded and coupled connections generally present a non-uniform stress distribution, which is related to the higher stiffness of the box when compared to the pin. The non-uniform stress distribution can contribute to fatigue cracks and other failure modes in high pressure oil wells. An API 5CT P110 steel obtained from a seamless pipe was mechanically characterized. FEA models were carried out to investigate and compare two API casing connections under make-up torque and tensile efforts. A parametric study was performed using numerical models to determine the influence of some geometric features on the behavior of the API Buttress threaded connection. The API Buttress connection supported higher tensile loads than the API Short Round, however both standard connections showed high stress concentration in the last engaged thread and a non-uniform stress distribution. The manufacturing of grooves at the first and the last engaged threads proved to be an efficient way to reduce the stress concentration of Buttress casing connection and could be an alternative to the development of new products.

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Bibliographic Details
Main Authors: Porcaro,Rodrigo Rangel, Cândido,Luiz Cláudio, Trindade,Vicente Braz, Faria,Geraldo Lucio de, Godefroid,Leonardo Barbosa
Format: Digital revista
Language:English
Published: ABM, ABC, ABPol 2017
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392017000100130
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spelling oai:scielo:S1516-143920170001001302017-03-22Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element AnalysisPorcaro,Rodrigo RangelCândido,Luiz CláudioTrindade,Vicente BrazFaria,Geraldo Lucio deGodefroid,Leonardo Barbosa Threaded Connections Thread Parametric Study API Thread Geometry API 5CT Steel Threaded and coupled connections generally present a non-uniform stress distribution, which is related to the higher stiffness of the box when compared to the pin. The non-uniform stress distribution can contribute to fatigue cracks and other failure modes in high pressure oil wells. An API 5CT P110 steel obtained from a seamless pipe was mechanically characterized. FEA models were carried out to investigate and compare two API casing connections under make-up torque and tensile efforts. A parametric study was performed using numerical models to determine the influence of some geometric features on the behavior of the API Buttress threaded connection. The API Buttress connection supported higher tensile loads than the API Short Round, however both standard connections showed high stress concentration in the last engaged thread and a non-uniform stress distribution. The manufacturing of grooves at the first and the last engaged threads proved to be an efficient way to reduce the stress concentration of Buttress casing connection and could be an alternative to the development of new products.info:eu-repo/semantics/openAccessABM, ABC, ABPolMaterials Research v.20 n.1 20172017-02-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392017000100130en10.1590/1980-5373-mr-2015-0613
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Porcaro,Rodrigo Rangel
Cândido,Luiz Cláudio
Trindade,Vicente Braz
Faria,Geraldo Lucio de
Godefroid,Leonardo Barbosa
spellingShingle Porcaro,Rodrigo Rangel
Cândido,Luiz Cláudio
Trindade,Vicente Braz
Faria,Geraldo Lucio de
Godefroid,Leonardo Barbosa
Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis
author_facet Porcaro,Rodrigo Rangel
Cândido,Luiz Cláudio
Trindade,Vicente Braz
Faria,Geraldo Lucio de
Godefroid,Leonardo Barbosa
author_sort Porcaro,Rodrigo Rangel
title Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis
title_short Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis
title_full Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis
title_fullStr Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis
title_full_unstemmed Evaluation of Standard API Casing Connections and Parametric API Buttress Improvement by Finite Element Analysis
title_sort evaluation of standard api casing connections and parametric api buttress improvement by finite element analysis
description Threaded and coupled connections generally present a non-uniform stress distribution, which is related to the higher stiffness of the box when compared to the pin. The non-uniform stress distribution can contribute to fatigue cracks and other failure modes in high pressure oil wells. An API 5CT P110 steel obtained from a seamless pipe was mechanically characterized. FEA models were carried out to investigate and compare two API casing connections under make-up torque and tensile efforts. A parametric study was performed using numerical models to determine the influence of some geometric features on the behavior of the API Buttress threaded connection. The API Buttress connection supported higher tensile loads than the API Short Round, however both standard connections showed high stress concentration in the last engaged thread and a non-uniform stress distribution. The manufacturing of grooves at the first and the last engaged threads proved to be an efficient way to reduce the stress concentration of Buttress casing connection and could be an alternative to the development of new products.
publisher ABM, ABC, ABPol
publishDate 2017
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392017000100130
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AT candidoluizclaudio evaluationofstandardapicasingconnectionsandparametricapibuttressimprovementbyfiniteelementanalysis
AT trindadevicentebraz evaluationofstandardapicasingconnectionsandparametricapibuttressimprovementbyfiniteelementanalysis
AT fariageraldoluciode evaluationofstandardapicasingconnectionsandparametricapibuttressimprovementbyfiniteelementanalysis
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