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Numerical modelling of spoolable thermoplastic composite pipe (TCP) under combined bending and thermal load

James C. Hastie, I. A. Guz, Maria Kashtalyan

2021Ships and Offshore Structures18 citationsDOIOpen Access PDF

Abstract

Spoolable thermoplastic composite pipe (TCP) consisting of fibre-reinforced laminate with inner and outer liners is an ideal candidate to replace steel counterparts in deepwater. In this paper, a 3D finite element (FE) model is developed to analyse stresses in TCP under combined bending and uniform temperature change illustrative of spooling in different environments. Thermal load causes deviation from the stress symmetry expected at the top/bottom of the pipe in simple bending. Maximum stress, Tsai-Hill and Hashin failure responses are analysed for [55] 4 , [42.5] 4 , [30] 4 and [(55) 2 /(30) 2 ] laminates at low and high temperatures. The [42.5] 4 configuration displays superior spooling capacity as layers orientated at 55a nd 30exhibit high utilisation of relatively weak transverse tensile and fibre compressive strengths, respectively. The failure criteria are in closest agreement at the top of the pipe (under axial tension) but differ more significantly at the bottom (axial compression).

Topics & Concepts

Materials scienceComposite materialBendingCompression (physics)Ultimate tensile strengthTension (geology)Finite element methodComposite numberStress (linguistics)ThermoplasticStructural engineeringCompressive strengthEngineeringLinguisticsPhilosophyMechanical Behavior of CompositesMechanical stress and fatigue analysisStructural Integrity and Reliability Analysis
Numerical modelling of spoolable thermoplastic composite pipe (TCP) under combined bending and thermal load | Litcius