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dc.contributor.authorYang, Chihdar Charles
dc.contributor.authorGuan, Zhidong
dc.identifier.citationYang, C., & Guan, Z. (2009). Stress analysis of composite pipe joints under combined torsional and tensile loading. Journal of Pressure Vessel Technology, Transactions of the ASME, 131(5) doi:10.1115/1.3151810
dc.identifier.issn1528-8978 (online)
dc.descriptionClick on the DOI link to access the article (may not be free).
dc.description.abstractAn analytical model was developed using the first-order laminated shell theory to determine stress and strain distributions within a composite pipe joint under combined torsional and tensile loading. Due to the axisymmetric nature of torsional and tensile loads about the pipe's central axis, a one-dimensional model was sufficient to simulate the system response. In this developed model, a three-component joint system consisting of coupling, adhesive, and pipe was used to model different types of composite pipe joints, such as adhesive-bonded socket joints, butt-and-strap joints, and heat-activated coupling joints. Good correlations were found when comparing results from both the developed model and the finite element model, including adhesive peel stress and shear stress distributions.
dc.publisherAmerican Society of Mechanical Engineers (ASME)
dc.relation.ispartofseriesJournal of Pressure Vessel Technology
dc.relation.ispartofseriesv.131 no.5
dc.subjectStructural design
dc.subjectComposite materials
dc.subjectFinite element method
dc.subjectMathematical models
dc.subjectPipe joints
dc.subjectShear stress
dc.subjectStress analysis
dc.subjectStress concentration
dc.subjectStructure (composition)
dc.subjectTensile stress
dc.titleStress analysis of composite pipe joints under combined torsional and tensile loading
dc.rights.holderCopyright 2009 by American Society of Mechanical Engineers

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