Affiliation:
1. Research School of Physics, Australian National University, Canberra, ACT 2600, Australia
Abstract
This paper presents a post-forming technique utilising both induction heating and rotary draw bending (RDB) for carbon fibre-reinforced polyetherentherketone (CF/PEEK) tubular structures. Existing post-forming techniques are unable to form CF/PEEK tubes due to the lack of a suitable mandrel material to provide internal support to the tube while withstanding high heat from melting the PEEK matrix during forming. This is addressed by using a steel spring mandrel in the tube induction heating process. In this study, four sets of [±60°]4 CF/PEEK tubes were formed using an induction heater-incorporated RDB setup into 45°, 90°, 135°, and 180° bends with a bending ratio of 2. Optical characterisation was performed to analyse tube fibre angle changes. A post-forming fibre angle prediction model previously derived for CF/polyamide 6 tubes was validated for its application in predicting fibre angle changes for CF/PEEK tubes by comparing the prediction with the characterised results.
Funder
ARC Training Centre for Automated Manufacture of Advanced Composites
Reference31 articles.
1. Past, present and future prospective of global carbon fibre composite developments and applications;Zhang;Compos. Part B Eng.,2023
2. Long, A.C. (2007). 1—Composite forming mechanisms and materials characterisation. Composites Forming Technologies, Woodhead Publishing.
3. Zheng, B., Gao, X., Li, M., Deng, T., Huang, Z., Zhou, H., and Li, D. (2019). Formability and Failure Mechanisms of Woven CF/PEEK Composite Sheet in Solid-State Thermoforming. Polymers, 11.
4. Goodarzi, M. (2007). Study on the Shear Bending Process of Circular Tubes. [Ph.D. Thesis, Electrical University of Communication].
5. Scaling effects in the energy absorption of carbon-fiber/PEEK composite tubes;Hamada;Compos. Sci. Technol.,1995