Your search keyword '"Maulana, Jibril"' showing total 3 results

1. The influence of coupling agent on lnterfacial shear strength of Sansevieria cylindrica fiber-epoxy composite.

Author

Fahlevi, Much. Rafi, Suryanto, Heru, Puspitasari, Rr. Poppy, Maulana, Jibril, and Wiguna, Chrisrulita Sekaradi

Subjects

SILANE, SHEAR strength, SILANE coupling agents, SCANNING electron microscopes, FIBER testing, X-ray diffraction

Abstract

The composite strength depends on the effectivity of interface interaction between the fiber and the matrix. The chemical treatment makes fiber surfaces more compatible with a hydrophobic polymer. So, this study aims to determine the influence of silane coupling agent concentration on the interfacial shear strength in the fiber composite of the Sansevieria cylindrica fiber. The methods included fibers treatment using ethanol as a dissolving and silane coupling agent with concentrations of 2.5%, 5%, 7.5%, and 10%. Fibers were embedded into the epoxy polymer for as long as 200 µm. The interfacial shear strength test was conducted through a single fiber pull-out test. Fiber morphology, crystallinity, and the functional group were observed using a scanning electron microscope and X-ray diffraction (XRD), respectively. As a result, the morphology of S. cylindrica fibers became rougher and showed a rougher surface after a silane concentration of 7.5%, but with the proper concentration, some fiber surfaces provided a good interface. Analysis using X-ray diffraction (XRD) on S. cylindrica fibers without treatment showed a crystalline index of 66%. Increasing silane concentration by 10% and the crystalline index by 75%. The treatment with a silane concentration of 0.0%, 2.5%, 5.0%, 7.5%, and 10.0% results in interfacial shear strength of 39.936, 59.300, 76.742, 83.965, and 91.321 MPa, respectively. The interfacial shear strength increases when the concentration of silane coupling agent increases, with the highest shear strength of 91.321 MPa at a silane concentration of 10%. The silane coupling agent changes hydroxyl groups into silanol groups in fibers, making a bond between the matrix and fibers. It can conclude that the treatment of a silane coupling agent increases the interfacial shear strength of the interface of S. cylindrica fiber-epoxy composite. [ABSTRACT FROM AUTHOR]

Published

2024

2. Impact of Mendong fiber–epoxy composite interface properties on electric field frequency exposure.

Author

Suryanto, Heru, Irawan, Yudi Surya, Soenoko, Rudy, Binoj, Joseph Selvi, Osman, Azlin Fazlina, Osman, Hakimah, Maulana, Jibril, and Ali, Alamry

Subjects

ELECTRIC properties, FIBROUS composites, SCANNING electron microscopes, SHEAR strength, EPOXY resins

Abstract

This research investigates the effects of the frequency of the external electric field during the curing process on the interfacial properties of epoxy composites reinforced by Mendong fiber. Epoxy was used as a matrix with cycloaliphatic amine as a curing agent. The AC electric field by frequencies of 1, 2, and 3 kHz and strength of 750 V/cm were applied during the curing process. The functional groups, structure, interface properties, and morphology of treated epoxy were observed using Fourier‐transform infrared, x‐ray diffraction, scanning electron microscope, and pull‐out test, respectively. The result indicates that after treatment with an electric field of 1 kHz, new peaks were observed in the epoxy diffractogram at the angle of 6.2° and 12.3°, change in morphology, the wettability properties of epoxy were increased and interface shear strength was improved. Increasing the frequency of electric fields results in more damage to the interface and subsequently reduces the shear strength at the interface. Highlights: Interface properties of the composite after curing in an electric field characterized.Exposure to electric field frequency during curing changed epoxy properties.Shear strength of Mendong fiber/epoxy varied post‐exposure to the electric field. [ABSTRACT FROM AUTHOR]

Published

2023

3. Evaluation of Silane Coupling Agent Treatment on Sansevieria Cylindrica Fiber as Reinforcement in Epoxy Composite.

Author

Wiguna, Chrisrulita Sekaradi, Suryanto, Heru, Aminnudin, Fahlevi, Much Rafi, Maulana, Jibril, and Yanuhar, Uun

Subjects

SILANE, SILANE coupling agents, EPOXY resins, INFRARED spectroscopy, ELECTRON microscopes, SHEAR strength

Abstract

The load transfer effectiveness from matrix to reinforcement is depended on the interface condition of the fiber surface and matrix. Chemical treatment can change fiber properties. The current study aims to evaluate the influence of chemical treatment using silane solution on interface shear strength (ISS) of Sansevieria cylindrica fiber (SCF) reinforced epoxy composite. The research procedure includes silane treatment on SCF with percentage silane concentrations of 0.0, 2.5, 5.0, 7.5, and 10.0%. ISS was evaluated by a single fiber pullout procedure. SCF crystallinity, functional group, and morphology were evaluated using X-ray diffraction, Infrared spectrometry, and electron microscope. The result shows that the surface morphology of SCF became rough and the surface rougher after silane treatment of 7.5%. SCF with no treatment has a degree of crystallinity of 66.0%, but after being treated with silane treatment, the degree of crystallinity increased, and the highest value of 75.0% was obtained from the silane treatment of 10.0%. The ISS increases following the increasing silane concentration. The highest ISS of 91.3 MPa was obtained at a silane treatment of 10.0%, with an increasing ISS of 129.0% compared to the control specimen. [ABSTRACT FROM AUTHOR]

Published

2023