An overview on current manufacturing technologies: Processing continuous rovings impregnated with thermoset resin

Arrabiyeh, Peter A.; May, David; Eckrich, Maximilian; Dlugaj, Anna M.

doi:10.1002/pc.26274

Cited by 30 publications

(21 citation statements)

References 134 publications

(149 reference statements)

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“…Fiber-reinforced composite materials are widely used in aerospace, automotive, energy, and marine applications because of their favorable material properties, such as high massspecific stiffness and strength [1-3], corrosion and chemical resistance [4], electrical and thermal isolation, low thermal expansion [5] as well as design flexibility. Depending on the target component geometry, different manufacturing processes [6] can be selected, such as braiding, pultrusion, filament winding, tape laying, compression molding, or vacuum infusion.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Fabrication Suitability, Structural Performance, and Sustainability of Natural Fibers in Coreless Filament Winding

et al. 2022

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Coreless filament winding is an emerging fabrication technology in the field of building construction with the potential to significantly decrease construction material consumption, while being fully automatable. Therefore, this technology could offer a solution to the increasing worldwide demand for building floor space in the next decades by optimizing and reducing the material usage. Current research focuses mainly on the design and engineering aspects while using carbon and glass fibers with epoxy resin; however, in order to move towards more sustainable structures, other fiber and resin material systems should also be assessed. This study integrates a selection of potential alternative fibers into the coreless filament winding process by adapting the fabrication equipment and process. A bio-based epoxy resin was introduced and compared to a conventional petroleum-based one. Generic coreless wound components were created for evaluating the fabrication suitability of selected alternative fibers. Four-point bending tests were performed for assessing the structural performance in relation to the sustainability of twelve alternative fibers and two resins. In this study, embodied energy and global warming potential from the literature were used as life-cycle assessment indexes to compare the material systems. Among the investigated fibers, flax showed the highest potential while bio-based resins are advisable at low fiber volume ratios.

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Section: Introductionmentioning

confidence: 99%

Investigation of the Fabrication Suitability, Structural Performance, and Sustainability of Natural Fibers in Coreless Filament Winding

et al. 2022

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“…The latter is considered available and straightforward from two roving impregnation systems, a dip-type and a drum-type bath system [49]. Notwithstanding the poor control over the fiber volume ratio that leads to an excess of resin, the drum-type bath systems have a wide application in industry.…”

Section: Design Conceptmentioning

confidence: 99%

A Low-Cost Filament Winding Technology for University Laboratories and Startups

et al. 2022

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This paper systematically explains the methodology and results of empirical work on the development of a low-cost filament winding technology for manufacturing axisymmetric polymer composite structures with a high length-to-diameter ratio, such as tubes, motor casings, and pressure vessels. The principal objective was to examine the experiences and most optimal practices in the development of computer-controlled equipment and auxiliary tooling for the wet filament-winding process. To preclude expensive commercial software for the automated control of a winding machine, analytical equations were derived for the winding trajectory of a four-axis filament-winding machine. The feasibility of the proposed equations was successfully validated by laying the fiber along the geodesic path marked on the surface of a cylindrical mandrel with hemispherical ends. Moreover, the carbon/epoxy cylindrical casings with hemispherical ends and port openings of the same diameter were wound to determine the thickness distribution in the hemispherical dome. The fiber volume ratio in the wound composite parts was evaluated using an optical technique.

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“…The cross-industry applications of fiber-reinforced composites for structural components with profile, planar, or shell shapes have been described in the literature. [1][2][3][4][5] The manufacturing process of coreless filament winding (CFW) 6,7 allows its utilization in shells 8 and lattice frameworks. 9 For technical applications where high specific mechanical properties are required, CFW offers a superior performance, since it allows for full control over the component geometry and fiber orientation.…”

Section: Introductionmentioning

confidence: 99%

Adaptive winding pin and hooking capacity model for coreless filament winding

Mindermann

Gresser

2022

Journal of Reinforced Plastics and Composites

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Coreless filament winding is a manufacturing process used for fiber-reinforced composites, resulting in high-performance lightweight lattice structures. Load transmission elements, which are assembled from commercially available standardized parts, often restrict the component design. A novel adaptive winding pin was developed, which is made by additive manufacturing and can therefore be adjusted to specific load conditions resulting from its position within the component. This allows to decouple the fiber arrangement from the winding pin orientation, which allows a fully volumetric framework design of components. A predictive model for the pin capacity was derived and experimentality validated. The hooking conditions, pin capacity, and occupancy were considered in the creation of a digital design tool.

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An overview on current manufacturing technologies: Processing continuous rovings impregnated with thermoset resin

Cited by 30 publications

References 134 publications

Investigation of the Fabrication Suitability, Structural Performance, and Sustainability of Natural Fibers in Coreless Filament Winding

Investigation of the Fabrication Suitability, Structural Performance, and Sustainability of Natural Fibers in Coreless Filament Winding

A Low-Cost Filament Winding Technology for University Laboratories and Startups

Adaptive winding pin and hooking capacity model for coreless filament winding

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