Establishing high-performance polymers in additive manufacturing opens up new industrial applications. Polyetheretherketone (PEEK) was initially used in aerospace but is now widely applied in automotive, electronics, and medical industries. This study focuses on developing applications using PEEK and Fused Filament Fabrication for cost-efficient vulcanization injection mold production. A proof of concept confirms PEEK’s suitability for AM mold making, withstanding vulcanization conditions. Printing PEEK above its glass transition temperature of 145 °C is preferable due to its narrow process window. A new process strategy at room temperature is discussed, with micrographs showing improved inter-layer bonding at 410°C nozzle temperature and 0.1 mm layer thickness. Minimizing the layer thickness from 0.15 mm to 0.1 mm improves tensile strength by 16%. Keywords: Additive Manufacturing; Fused Filament Fabrication; Tensile Strength; Polyetheretherketone (PEEK); Rapid Tooling; Process Parameters

Gebhardt, A., Hötter, J.-S., Additive manufacturing: 3D printing for prototyping and manufacturing, Hanser Publishers; Hanser Publications, Munich, 2016.

Hubs, Additive manufacturing technologies poster | Hubs [Internet], 2023 [modified 2023 Aug 25; cited 2023 Aug 25]. Available from: https://www.hubs.com/get/am-technologies/.

Roland Berger, Polymer additive manufacturing – Market today and in the future [Internet], 2020 [modified 2023 Aug

; cited 2023 Aug 25]. Available from: https://www.rolandberger.com/en/Insights/Publications/Polymer-additive-manufacturing-Market-today-and-in-the-future.html.

Mohamed, O. A., Masood, S. H., Bhowmik, J. L., Optimization of fused deposition modeling process parameters: a review of current research and future prospects. Adv. Manuf. 2015, 3, 42–53.

Wang, Y., Müller, W.-D., Rumjahn, A., Schwitalla, A., Parameters Influencing the Outcome of Additive Manufacturing of Tiny Medical Devices Based on PEEK. Materials (Basel, Switzerland) 2020, 13.

Cendrero, A. M., Fortunato, G. M., Munoz-Guijosa, et al., Benefits of Non-Planar Printing Strategies Towards Eco-Efficient 3D Printing. Sustainability 2021, 13, 1599.

Boparai, K. S., Singh, R., Singh, H., Development of rapid tooling using fused deposition modeling: a review. Rapid Prototyping Journal 2016, 22, 281–299.

Rosochowski, A., Matuszak, A., Rapid tooling: the state of the art. Journal of Mater Processing Technology 2000, 106, 191–198.

Huzaim, N. H. M., Rahim, S. Z. A., Musa, L., Abdellah, A. E.-H. et al., Potential of Rapid Tooling in Rapid Heat Cycle Molding: A Review. Materials 2022, 15.

Zanjanijam, A. R., Major, I., Lyons, J. G., Lafont, U. et al., Fused Filament Fabrication of PEEK: A Review of Process-Structure-Property Relationships. Polymers 2020, 12.

Rahman, K. M., Letcher, T., Reese, R., Mechanical Properties of Additively Manufactured PEEK Components Using Fused Filament Fabrication, Volume 2A: Advanced Manufacturing. ASME 2015

International Mechanical Engineering Congress and Exposition, Houston, Texas, USA, 13.11.2015 - 19.11.2015, American Society of Mechanical Engineers, 2015.

Ensinger GmbH, PEEK- Polyetheretherketon: TECAPEEK Kunststoffe von Ensinger [Internet], 2021 [modified 2021 Nov 9]. Available from: https://www.ensingerplastics.com/de -de/halbzeuge/hochleistungskunststoff/peek.

Apium, Case Study: Mould Making with FFF 3D Printed CFR PEEK Parts - Time and Cost Saving Potential [Internet], 2019. Available from: https://apiumtec.com/en/case-study-mould-making-with-fff-3d-print

ed-cfr-peek-parts-time-and-cost-potential.

Dizon, J. R. C., Valino, A. D., Souza, L. R., Espera, A. H. et al., 3D Printed Injection Molds Using Various 3D Printing Technologies. MSF 2020, 1005, 150–156.

Park, S. J., Lee, J. E., Park, J., Lee, N.-K. et al., High-temperature 3D printing of polyetheretherketone products: Perspective on industrial manufacturing applications of super engineering plastics. Materials &

Design 2021, 211, 110163.

Vassallo, M., Rochman, A., Rapid prototyping solution for the production of vulcanized rubber components, in: p. 150014.

Gao, S., Liu, R., Xin, H., Liang, H. et al., The Surface Characteristics, Microstructure and Mechanical Properties of PEEK Printed by Fused Deposition Modeling with Different Raster Angles. Polymers 2021, 14.

Challa, B. T., Gummadi, S. K., Elhattab, K., Ahlstrom, J. et al., In-house processing of 3D printable polyetheretherketone (PEEK) filaments and the effect of fused deposition modeling parameters on 3D-printed PEEK structures. The International Journal of

Advanced Manufacturing Technology 2022,

, 1675–1688.

Baek, I., Kwon, O., Lim, C.-M., Park, K. Y. et al., 3D PEEK Objects Fabricated by Fused Filament Fabrication (FFF). Materials (Basel, Switzerland) 2022, 15.

Das, A., McIlroy, C., Bortner, M. J., Advances in modeling transport phenomena in material- extrusion additive manufacturing. Prog Addit Manuf 2021, 6, 3–17.

Gao, X., Qi, S., Kuang, X., Su, Y. et al., Fused filament fabrication of polymer materials: A review of interlayer bond. Additive manufacturing 2021, 37, 101658.

Shahriar, B., et al., Toward improvement of the properties of parts manufactured by FFF through understanding the influence of temperature and rheological behaviour on the coalescence phenomenon. Sustainable Technology And Practice For Infrastructure

and Community Resilience, Penang, Malaysia, 8–9 August 2017. AIP ConferenceProceedings, 2017, p. 40008.

Vaezi, M., Yang, S., Extrusion-based additive manufacturing of PEEK for biomedical applications. Virtual and Physical Prototyping 2015, 10, 123–135.

Kumar, R., Singh, G., Chinappan, A., Ghomi, E. R. et al., On Mechanical, Physical, and Bioactivity Characteristics of Material

Extrusion Printed Polyether Ether Ketone. J. of Mater Eng and Perform 2022.

Wang, R., Cheng, K., Advincula, R. C., Chen, Q., On the thermal processing and mechanical properties of 3D-printed polyether ether ketone. MRS Communications 2019, 9, 1046–1052.

Zhang, J., et al., T4F3: temperature for fused filament fabrication. Prog Addit Manuf 2022, 7, 971–991.

Herwig, H., Moschallski, A., Wärmeübertragung, Springer Fachmedien

Wiesbaden, Wiesbaden 2019.

Li, Q., Zhao, W., Li, Y., Yang, W. et al., Flexural Properties and Fracture Behavior of CF/PEEK in Orthogonal Building Orientation by FDM: Microstructure and Mechanism. Polymers 2019, 11.

Yang, C., Tian, X., Li, D., Cao, Y. et al., Influence of thermal processing conditions in 3D printing on the crystallinity and mechanical properties of PEEK material. J of Mat ProcTechnology 2017, 248, 1–7.

Yang, D., Cao, Y., Zhang, Z., Yin, Y. et al., Effects of crystallinity control on mechanical properties of 3D-printed shortcarbon- fiber-reinforced polyether ether ketone composites. Polymer Testing 2021,

, 107149.

Vanaei, H. R., Shirinbayan, M., Deligant, M., Khelladi, S. et al., In-Process Monitoring of Temperature Evolution during Fused Filament Fabrication: A Journey from Numerical to Experimental Approaches.

Thermo 2021, 1, 332–360.