Influence of fiber orientation and length distribution on the rheological characterization of glass-fiber-filled polypropylene

Köpplmayr, Thomas; Milosavljevic, Ivana; Aigner, Michael; Hasslacher, R.; Plank, Bernhard; Salaberger, Dietmar; Miethlinger, Jürgen

doi:10.1016/j.polymertesting.2013.02.002

Cited by 50 publications

(37 citation statements)

References 12 publications

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“…, fit very well with the experimental tensile strength data. They are also in agreement with those obtained by Thomason and Kôpplmayr when studying the effect of fiber orientation and length distribution on the properties of GF‐reinforced polypropylene.…”

Section: Resultssupporting

confidence: 90%

Mechanical and structural properties of glass fiber‐reinforced polypropylene (PPGF) composites

et al. 2017

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This work focuses on the study of mechanical and structural properties of glass fiber‐reinforced polypropylene (PPGF) composites compatiblized with maleic anhydride (MAH) grafted PP (PP‐g‐MAH). Thus, effects of the compatibilizer on the flow capacity, fiber orientation and length distribution, thermal and mechanical properties were evaluated. Combining fiber length and melt flow index (MFI) results, it can be speculated that when the compatibilizer is added, the level of fiber matrix interaction increases and the fluidity of the molten composite material improves, resulting in a better orientation and a lower level of fiber length degradation. Moreover, the mechanical analysis based on the micromechanical model was conducted to estimate the effect of the compatibilizer on the interfacial shear stress, orientation factor, and the tensile strength. The main results indicate that the experimental data have confirmed the validity of the micromechanical model. POLYM. COMPOS., 39:3497–3508, 2018. © 2017 Society of Plastics Engineers

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Section: Resultssupporting

confidence: 90%

Mechanical and structural properties of glass fiber‐reinforced polypropylene (PPGF) composites

et al. 2017

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“…Glass fiber-reinforced polypropylene is one of the most widely used thermoplastic composites for fabricating automotive parts. While the industry has relied on the use of short [2][3] or long discontinuous fibers [4][5], unidirectional (UD) tapes utilizing continuous glass fibers are also an emerging and promising solution. Improved mechanical performance, lighter weight, effective tailoring of laminate lay-up, ease of integration with other structural parts, increased freedom for design complexity, and rapid processing time are the main reasons for the use of continuous glass fiber polypropylene.…”

Section: Introductionmentioning

confidence: 99%

Monotonic and cyclic responses of impact polypropylene and continuous glass fiber-reinforced impact polypropylene composites at different strain rates

et al. 2016

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“…Gentian karbon jenis ini mampu meningkatkan tahap keberaliran elektrik pada nilai bebanan yang rendah serta tahap serakan pengisi yang sekata dalam matriks polimer melalui proses penyempritan. Selain itu, nisbah bidangnya yang tinggi turut membantu meningkatkan keberaliran elektrik dalam matriks polimer (Barton et al 2008;Köpplmayr et al 2013). Polipropilena (PP) dengan gred Titan (600) mempunyai purata saiz maksimum 90 m, ketumpatan bahan sebanyak 0.91 g/cm 3 serta indeks cairan sebanyak 10 g/10 min pada suhu 160 adalah dibekalkan oleh Goonvean Fibers Ltd.…”

Section: Eksperimen Kajian Bahanunclassified

Pengoptimuman Proses Penyemperitan Gentian Karbon Terkisar dan Polipropilena bagi Komposit Polimer Pengalir

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Sulong²,

Somalu³

2016

JSM

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The extrusion process is one of the pre-mixing processes that aid in improving the filler dispersion in conductive polymer composite (CPC). Electrical conductivity level still needs much improvement in mixing process through mechanical mixer. This study was conducted to optimise the extrusion process parameters (temperature and rotational speed) of milled carbon fibre (MCF) and polypropylene (PP) using experimental design (Taguchi method

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Influence of fiber orientation and length distribution on the rheological characterization of glass-fiber-filled polypropylene

Cited by 50 publications

References 12 publications

Mechanical and structural properties of glass fiber‐reinforced polypropylene (PPGF) composites

Mechanical and structural properties of glass fiber‐reinforced polypropylene (PPGF) composites

Monotonic and cyclic responses of impact polypropylene and continuous glass fiber-reinforced impact polypropylene composites at different strain rates

Pengoptimuman Proses Penyemperitan Gentian Karbon Terkisar dan Polipropilena bagi Komposit Polimer Pengalir

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