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W4297548887 endingPage "4064" @default.
W4297548887 startingPage "4064" @default.
W4297548887 abstract "Pultruded glass-fibre reinforced polymer (pGFRP) composites are classified as lightweight material, which exhibit high strength-to-weight ratio for structural usage. This composite material has been applied as cross-arm members in transmission towers due to its ability in thermal and electrical insulation. However, the influence of the stacking sequence of pGFRP composite on its mechanical performance has not been fully covered in the literature to explain the long-term durability of the current cross-arm designs. The study expected to evaluate five fiber layers with various stacking sequences in terms of quasi-static and creep tests in a four-point bending mode. The creep test was performed for 1440 h (60 days). These composites were fabricated using the pultrusion process in the form of a square hollow structure. Later, it was cut into composite coupons with various sizes depending on the test conducted. The results showed that nine layers with 0°/45°/0°/-45°/0°/-45°/0°/45°/0° had the ultimate flexural strength. This stacking sequence configurations seemed to be optimally manufactured in continuous roving fibre by alternating between 0° and ±45° fiber orientations. Additionally, the S-9 pGFRP composite sample showed that it had a low-creep deflection with high elastic and apparent creep moduli in 1440 h. In terms of strength reduction factor, this configuration was recorded as the highest. The findings showed that the nine layers of pGFRP composites with alternation of 0° and ±45° fiber orientations were highly suitable for structural application at transmission towers for a long-term operation." @default.
W4297548887 created "2022-09-29" @default.
W4297548887 creator A5032913923 @default.
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W4297548887 creator A5054085514 @default.
W4297548887 creator A5076696110 @default.
W4297548887 creator A5083470389 @default.
W4297548887 date "2022-09-28" @default.
W4297548887 modified "2023-09-26" @default.
W4297548887 title "Effect of Stacking Sequence on Long-Term Creep Performance of Pultruded GFRP Composites" @default.
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W4297548887 doi "https://doi.org/10.3390/polym14194064" @default.
W4297548887 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36236012" @default.
W4297548887 hasPublicationYear "2022" @default.
W4297548887 type Work @default.
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