Performance Analysis of FFF-Printed Carbon Fiber Composites Subjected to Different Annealing Methods

Butt, Javaid and Khan, Md Ashikul Alam and Adnan, Muhammad and Mohaghegh, Vahaj (2024) Performance Analysis of FFF-Printed Carbon Fiber Composites Subjected to Different Annealing Methods. Journal of Manufacturing and Materials Processing, 8 (6). p. 252. ISSN 2504-4494

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Abstract

Annealing is a popular post-process used to enhance the performance of parts made by fused filament fabrication. In this work, four different carbon-fiber-based composites were subjected to two different annealing methods to compare their effectiveness in terms of dimensional stability, surface roughness, tensile strength, hardness, and flexural strength. The four materials include PLA-CF, PAHT-CF, PETG-CF, and ABS-CF. The annealing methods involved heating the printed composites inside an oven in two different ways: placed on a tray and fluidized bed annealing with sharp sand. Annealing was conducted for a one-hour time interval at different annealing temperatures selected as per the glass transition temperatures of the four materials. The results showed that oven annealing provides better results under all scenarios except dimensional stability. PETG-CF and ABS-CF composites were significantly affected by oven annealing with expansion along the z-axis as high 8.42% and 18% being observed for PETG-CF and ABS-CF, respectively. Oven annealing showed better surface finish due to controlled and uniform heating, whereas the abrasive nature of sand and contact with sand grains caused inconsistencies on the surface of the composites. Sand annealing showed comparable hardness values to oven annealing. For tensile and flexural testing, sand annealing showed consistent values for all cases but lower than those obtained by oven annealing. However, oven annealing values started to decrease at elevated temperatures for PETG-CF and ABS-CF. This work offers a valuable comparison by highlighting the limitations of conventional oven annealing in achieving dimensional stability. It provides insights that can be leveraged to fine-tune designs for optimal results when working with different FFF-printed carbon-fiber-based composites, ensuring better accuracy and performance across various applications.

Item Type: Article
Identification Number: 10.3390/jmmp8060252
Dates:
Date
Event
6 November 2024
Accepted
11 November 2024
Published Online
Uncontrolled Keywords: additive manufacturing, fused filament fabrication, annealing, PLA, PETG, ABS, PAHT, carbon fiber
Subjects: CAH10 - engineering and technology > CAH10-01 - engineering > CAH10-01-02 - mechanical engineering
Divisions: Faculty of Computing, Engineering and the Built Environment > College of Engineering
Depositing User: Gemma Tonks
Date Deposited: 18 Nov 2024 14:59
Last Modified: 18 Nov 2024 14:59
URI: https://www.open-access.bcu.ac.uk/id/eprint/15971

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