%0 Journal Article %A Iqbal, M. %A Karuppanan, S. %A Perumal, V. %A Ovinis, M. %A Iqbal, M. %A Rasul, A. %D 2024 %F scholars:19993 %J International Journal of Structural Integrity %K Composite materials; Fatigue of materials; Offshore oil well production; Offshore structures; Stress concentration; Welds, Composite reinforcement; Composites material; Fatigue life enhancement; FRP reinforcement; Load configurations; Optimal orientation; Optimisations; Stress concentration factors; Tubular joints; Weld toe, Reinforcement %R 10.1108/IJSI-04-2024-0054 %T Optimization of fibre orientation for composite reinforcement of circular hollow section KT-joints %U https://khub.utp.edu.my/scholars/19993/ %X Purpose: Composite materials are effective alternatives for rehabilitating critical members of offshore platforms, bridges, and other structures. The structural response of composite reinforcement greatly depends on the orientation of fibres in the composite material. Joints are the most critical part of tubular structures. Various existing studies have identified optimal reinforcement orientations for a single load component, but none has addressed the combined load case, even though most practical loads are multiplanar. Design/methodology/approach: This study investigates the optimal orientation of composite reinforcement for reducing stress concentration factors (SCF) of tubular KT-joints. The joint reinforcement was modelled and simulated using ANSYS. A parametric study was carried out to determine the effect of the orientations of reinforcement in the interface region on SCF at every 15° offset along the weld toe using linear extrapolation of principal stresses. The impact of orientation for uniplanar and multiplanar loads was investigated, and a general result about optimum orientation was inferred. Findings: It was found that the maximum decrease of SCF is achieved by orienting the fibres of composite reinforcement along the maximum SCF. Notably, the optimal direction for any load configuration was consistently orthogonal to the weld toe of the chord-brace interface. As such, unidirectional composites wrapped around the brace axis, covering both sides of the brace-chord interface, are most effective for SCF reduction. Originality/value: The findings of this study are crucial for adequate reinforcement of tubular joints using composites, offering a broader and universally applicable optimum orientation that transcends specific joint and load configuration. © 2024, Emerald Publishing Limited. %Z cited By 0