Your search keyword '"Abdullah Kafi"' showing total 3 results

1. Influence of Atmospheric Helium Plasma on the Surface Energy of Jute Fibres and the Performance of Resulting Composites

Author

Kevin Magniez, Abdullah Kafi, Bronwyn Fox, and Claudio Cinquemani

Subjects

Work (thermodynamics), Glow discharge, Materials science, Atmospheric pressure, Capillary action, Chemie, Surfaces and Interfaces, General Chemistry, Helium plasma, Surface energy, Surfaces, Coatings and Films, Contact angle, Flexural strength, Mechanics of Materials, Materials Chemistry, Composite material

Abstract

In this work, an atmospheric pressure glow discharge helium plasma treatment was employed to modify the surface properties of jute fibres. The resulting bio-composites showed an increase in flexural properties and interlaminar shear strength (ILSS) compared to composites produced using untreated jute fibres. To understand the reason behind the ILSS improvement, the acid–base properties of jute fibres were determined by contact angle analysis using the capillary rise method. The results were fitted further to van Oss–Chaudhury–Good (vOCG) and Chang–Qin–Chen (CQC) models to determine the Lifshitz–van der Waals (LW) and acid–base components of surface energy. Surface energy determined by the vOCG model revealed that plasma treatment of jute fibre resulted in a 22% increase in total surface energy, a 19% increase in the LW component and a 24% increase in the acid–base component of surface energy. The increase in the acid–base component is due to the significant increase (69%) in the electron-accepting (γ + S)...

Published

2012

2. Measuring the Adhesion Force on Natural Fibre Surface Using Scanning Probe Microscopy

Author

Bronwyn Fox, Abdullah Kafi, and Kevin Magniez

Subjects

Materials science, Analytical chemistry, Atmospheric-pressure plasma, Surfaces and Interfaces, General Chemistry, Adhesion, Helium plasma, Surfaces, Coatings and Films, chemistry.chemical_compound, Scanning probe microscopy, Statistical variability, Silicon nitride, chemistry, Mechanics of Materials, Materials Chemistry, Adhesion force, Jute fibre, Composite material

Abstract

This work has focused on measuring the adhesion forces on both untreated and atmospheric helium plasma treated single jute fibre surfaces using scanning probe microscopy (SPM). The measurements were conducted on three differently aged surfaces for one week, three weeks and six weeks using a standard silicon nitride tip in force-volume (f-v) mode. Up to 256 adhesion data points were collected from various locations on the surface of the studied fibres using in-house developed software and the resulting data were statistically analysed by the histogram method. Results obtained from this analysis method were found to be very consistent with a small statistical variation. The work of adhesion, W a, was calculated from measured adhesion force using the Johnson–Kendall–Roberts (JKR) and Derjaguin–Muller–Toporov (DMT) models. Increases in both adhesion force and work of adhesion were observed on jute fibre with certain levels of atmospheric plasma treatment and ageing time.

Published

2012

3. Analysis of the Effects of Atmospheric Helium Plasma Treatment on the Surface Structure of Jute Fibres and Resulting Composite Properties

Author

Bronwyn Fox, Abdullah Kafi, Mickey G. Huson, and Christopher Hurren

Subjects

Materials science, Composite number, Modulus, Surfaces and Interfaces, General Chemistry, Surface finish, Surfaces, Coatings and Films, Scanning probe microscopy, Flexural strength, Mechanics of Materials, Ultimate tensile strength, Materials Chemistry, Wetting, Composite material, Natural fiber

Abstract

This work investigates the mechanisms involved in the improvement of flexural properties of a jute/polyester composite when the reinforcement material has been atmospherically plasma treated using helium gas. All composites were laid-up by hand and cured using a Quickstep™ cure cycle. Surface characterization techniques including scanning probe microscopy (SPM), and surface wettability combined with fabric tensile strength, composite flexural strength and composite Mode-I properties have been used to quantify the effects of plasma modification. Flexural strength and modulus increased with plasma treatment time, reaching a maximum at 25 passes before decreasing. SPM topographical analysis showed that roughness of the fibre decreased as the plasma treatment time increased until 25 passes after which the roughness was found to increase again. The coefficient of friction increased rapidly after only a short plasma treatment time (5 passes) whilst wettability continued to increase until 25 passes after which i...

Published

2009