Patent ID: 9079353
Filing Date: 2015-07-14
Classification: B29C,F16L,Y10T

Abstract:
1. A method of manufacturing a composite tape via a pultrusion process, for forming an armour layer of a flexible pipe body, comprising the steps of: providing a plurality of reinforcement fibers; impregnating the plurality of reinforcement fibers with a resin mixture; heating the plurality of reinforcement fibers and the resin mixture in a die; and continually pulling the plurality of reinforcement fibers through the die to form the tape having the plurality of reinforcement fibers extending longitudinally and substantially in parallel with each other along the tape with clusters of the plurality of reinforcement fibers arranged in selected regions of a cross-section of the tape, which correspond to regions of high stress in an armour layer formed using the composite tape, compared with surrounding regions of the armour layer, the cross-section being perpendicular to the longitudinal axis of the tape; and wherein the clusters of the plurality of reinforcement fibers comprise reinforcement fibers that extend longitudinally along the tape and substantially in parallel with and in the same direction as reinforcement fibers in other regions, such that the cross-section of the tape is consistent along the length of the tape, and wherein the clusters comprise single, spaced apart reinforcement fibers, and the single, spaced apart reinforcement fibers comprise fibers of a different cross-sectional diameter, material or cross-sectional shape compared to reinforcement fibers in other regions, and using the composite tape to form an armour layer of a flexible pipe body; wherein, via the die, the cross-section of the tape is formed with at least one nub region and at least one valley region corresponding to the regions of high stress and the clusters of reinforcement fibers are located in the regions of high stress, wherein the act of providing a plurality of reinforcement fibers comprises providing a first plurality of reinforcement fibers having a first predetermined diameter and a second plurality of reinforcement fibers having a second predetermined diameter that is different than the first predetermined diameter, the first and second plurality of fibers being arranged relative to one another such that the first plurality of fibers are arranged in the clusters in the selected regions of the cross-section and the second plurality of fibers are arranged in the other regions, wherein the first predetermined diameter is less than the second predetermined diameter and the selected regions corresponding at least one nub region and at least one valley region.