Stress analysis of composite pipe joints under combined torsional and tensile loading

No Thumbnail Available
Authors
Yang, Chihdar Charles
Guan, Zhidong
Advisors
Issue Date
2001-11
Type
Conference paper
Keywords
Composite materials , Composite pipe joint , Strain distribution , Tensile loading , Torsional loading , Computer simulation , Dynamic loads , Finite element method , Joints (structural components) , Laminated composites , Mathematical models , PipeStress analysis , Stress concentration
Research Projects
Organizational Units
Journal Issue
Citation
Yang, C., & Guan, Z. (2001). Stress analysis of composite pipe joints under combined torsional and tensile loading. Paper presented at the International SAMPE Technical Conference,, 33482-493.
Abstract

An analytical model was developed using the first-order laminated anisotropic plate theory to determine the 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 central axis, a one-dimensional model is sufficient to simulate the system response. In this developed model, a three-component joint system consisted 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 finite element model including adhesive peel stress and shear stress distributions.

Table of Contents
Description
Publisher
Society for the Advancement of Material and Process Engineering (SAMPE)
Journal
Book Title
Series
International SAMPE Technical Conference
PubMed ID
DOI
ISSN
EISSN