Your search keyword '"Syamsir, Agusril"' showing total 3 results

1. Effect of Stacking Sequence on Long-Term Creep Performance of Pultruded GFRP Composites.

Author

Asyraf, Muhammad Rizal Muhammad, Syamsir, Agusril, Zahari, Nazirul Mubin, Supian, Abu Bakar Mohd, Usman, Fathoni, and Itam, Zarina

Subjects

*FIBER orientation, *LIGHTWEIGHT materials, *COMPOSITE materials, *ELECTRIC insulators & insulation, *FLEXURAL strength, *CREEP (Materials), *THERMAL insulation

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. [ABSTRACT FROM AUTHOR]

Published

2022

2. Flexural Creep Behaviour of Pultruded GFRP Composites Cross-Arm: A Comparative Study on the Effects of Stacking Sequence.

Author

Alhayek, Abdulrahman, Syamsir, Agusril, Supian, Abu Bakar Mohd, Usman, Fathoni, Asyraf, Muhammad Rizal Muhammad, and Atiqah, Mohd Afdzaluddin

Subjects

*ELECTRIC lines, *GLASS fibers, *ULTIMATE strength, *FLEXURAL modulus, *ARM, *FLEXURAL strength, *COMPARATIVE studies, *CREEP (Materials)

Abstract

Pultruded glass fibre reinforced polymer (pGFRP) composites provide outstanding properties for composite polymer cross arms in power transmission line applications. This study has investigated the effects of various stacking sequences of fibres directions of pGFRP on flexural strength and creep behaviour. The use of static four-point bending flexural tests revealed that Stacking Sequence 2 (±45/0/90/0/90/0) had a significant flexural strength of 399.9 MPa while Stacking Sequence 1 (±45/90/0/±45) had a flexural strength of 242.5 MPa. Furthermore, the four-point bending creep experiments were performed at three distinct stress levels, notably 12%, 24%, and 37% of the ultimate flexural strength, to characterise the creep behaviour of distinct stacking sequences. Moreover, Findley's power law equation for bending creep behaviour has revealed that the time-dependent reduction factor of Stacking Sequence 1 and Stacking Sequence 2 estimates a drop in flexural modulus of 23% and 10% respectively. [ABSTRACT FROM AUTHOR]

Published

2022

3. Creep behavior of Glass Fibre Reinforced Polymer Structures in Crossarms Transmission Line Towers.

Author

Beddu, Salmia, Syamsir, Agusril, Mohd Ishak, Zainal Arifin, Yusof, Zulkifli Mohd, Hudi, Nadiah Salwi, and Nabihah, Siti

Subjects

*CREEP (Materials), *GLASS fibers, *CLAY-reinforced polymeric nanocomposites, *ELECTRIC lines, *DEFORMATIONS (Mechanics)

Abstract

This paper presents a review of the creep behavior of fiber reinforced polymer. Fiber reinforced polymer composites are utilized in transmission line as an alternative to cross arm structure in replacing the conversational cross arm, due to a good potential of fiber reinforced polymer widely used with well-known advantages mainly related to easy manufacturing, lightweight, moldability, high-quality surface finishes and optimal mechanical properties. Creep behavior is fundamental for the element to withstand loads in maximum period. Due to extreme creep deformation, the impaired structure may happen or even result in structural collapse. Creep was measured by flexural creep test, finite element method and numerical method by using Ansys. A creep behavior was investigated on Glass Fiber Reinforced Polymer (GFRP) as the result after 6 and 14 months, Young's modulus composites were reduced to 20%. Meanwhile, creep behavior of GFRP pultruded flexural member show shear stiffness after 50 years with 22% to 43% with average reduction of effective instantaneous flexural and higher creepocity because of the shear deformation instead of bending counterpart. Finally, a creep study on GFRP girder show an increment of instantaneous deflection up to 40% after five months it is confirming the potential of GFRP in structural industries. [ABSTRACT FROM AUTHOR]

Published

2018