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Flammability and morphology of Agel leaf fibre- epoxy composite modified with carbon powder for fishing boat applications

Kurniasih P., Wirawan W. A., Narto A., Pribadi O. S., Imron N. A., Rachman N. F., Pradipta A.

Archives of Materials Science and Engineering

2023

Vol. 122, nr 1

13--21

Purpose: Fibre Reinforced Polymer Composites have been extensively developed to construct fishing vessels. This study reports on the successful development of the Agel Leaf Fibre (ALF)- Epoxy composite reinforced with carbon powder and fabricated using the Vacuum Infusion method. Design/methodology/approach: The composites were prepared by varying the carbon powder filler content at volumes of 0%, 10%, and 30%. The fire resistance of the composites was investigated using a burning test according to ASTM D-3014 standards. The morphology of the composites was observed through SEM analysis and analysed using ImageJ software. Findings: The research findings reveal that adding 30% carbon powder in the HCP composite reduced the burning rate by 42.624 mm/sec and the time to ignition by 17.33 seconds, indicating improved fire resistance properties. The carbon powder inhibited flame propagation and reduced the combustion rate by 0.49%. The SEM examination confirmed that the fibre porosity decreased, resulting in a denser composite with enhanced fibre-matrix adhesion. Therefore, the implementation of fire-resistant composite materials in fishing vessel construction can be realised. Research limitations/implications: The present study primarily examined the immediate effects of carbon powder additions on the morphology of the composites. However, it is crucial to consider these composites’ long-term stability and durability. Future research should investigate the ageing behaviour, considering environmental factors such as humidity, temperature, and UV radiation, to assess their impact on the morphology and flammability resistance of the composites. Additionally, it is essential to acknowledge that other factors, including fibre orientation, fibre length, and matrix properties, can significantly influence the overall performance of the composites. Practical implications: The enhanced flammability resistance of Agel Leaf Fibre-Epoxy composites with carbon powder additions holds significant benefits for fishing boat applications. In marine environments, the risk of fire incidents on fishing boats is high, making materials with good fire resistance highly desirable. Therefore, implementing fire-resistant composite materials in fishing boat construction can be realised to reduce the risk of fire incidents in high-seas fishing vessels. Originality/value: Composites with added carbon powder exhibited smaller flames, slower burning rates, and a lack of significant flame propagation. This suggests that adding carbon powder acts as an oxygen barrier and reduces the availability of fuel within the composite.

CVD carbon powders modified by ball milling

Kaźmierczak T., Kaczorowski W., Niedzielski P.

Materials Science Poland

2015

Vol. 33, No. 3

521--528

Carbon powders produced using a plasma assisted chemical vapor deposition (CVD) methods are an interesting subject of research. One of the most interesting methods of synthesizing these powders is using radio frequency plasma. This method, originally used in deposition of carbon films containing different sp2/sp3ratios, also makes possible to produce carbon structures in the form of powder. Results of research related to the mechanical modification of these powders have been presented. The powders were modified using a planetary ball mill with varying parameters, such as milling speed, time, ball/powder mass ratio and additional liquids. Changes in morphology and particle sizes were measured using scanning electron microscopy and dynamic light scattering. Phase composition was analyzed using Raman spectroscopy. The influence of individual parameters on the modification outcome was estimated using statistical method. The research proved that the size of obtained powders is mostly influenced by the milling speed and the amount of balls. Powders tend to form conglomerates sized up to hundreds of micrometers. Additionally, it is possible to obtain nanopowders with the size around 100 nm. Furthermore, application of additional liquid, i.e. water in the process reduces the graphitization of the powder, which takes place during dry milling.

Ilościowa ocena zawartości proszku węgla w kompozytach o osnowie polimerowej metodą termografii aktywnej

Stabik J., Pawlak S., Chomiak M., Muzia G.

Przetwórstwo Tworzyw

2012

[R.] 18, nr 4

361-364

W artykule przedstawiono zastosowanie termografii aktywnej do ilościowej oceny zawartości proszku węgla (grafitu i węgla antracytowego) w kompozytach o osnowie epoksydowej. Uzyskane podczas badań termograficznych charakterystyki czasowo-temperaturowe użyto do wyznaczenia dyfuzyjności cieplnej kompozytów. Na podstawie uzyskanych wyników badań stwierdzono, że zaproponowana metoda badawcza może być z powodzeniem zastosowana do ilościowej oceny zawartości proszku węgla w kompozytach polimerowych o osnowie epoksydowej.

The application of active thermography for the quantitative assessment of carbon powder (graphite and anthracite coal) content in epoxy matrix has been presented in this article. Temperature-time dependences obtained during thermographic measurements were used to determine the thermal diffusivity of composites. On the basis of obtained results of the measurements, it was summarized that the proposed testing method can be applied in quantitative assessment of carbon powder content in epoxy matrix composites.