PSI - Issue 33

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Taoufik Hachimi et al. / Procedia Structural Integrity 33 (2021) 907 – 916 HACHIMI Taoufik et al. / Structural Integrity Procedia 00 (2021) 000–000

The shown Graph presents the different properties between the real PA6-1 and the Extruded one. The mechanical behavior of each of the specimens is analyzed. Which are closed to the real one the difference is due to the micro inserts in the extruded one see Fig. 14.

Fig. 14. Micro-Inserts

4. Conclusion The availability of the raw materials for the 3D printer is one of the biggest challenges for using additive manufacturing for production and commercialization. The requirements option of good mechanical properties as well. In this order, we made a plan to designed and produced the filament extruder, starting with conception on software design, and ending with the realization, finally, a filament extrusion parameter has been studied. Also, filament material has been mechanically characterized. The mechanical properties of filament obtained in our manufacturing will be considered satisfactory. The Time and cost have been reduced. A workflow manufacturing filament extrusion system has been developed. Reference : Dey, Arup, Isnala Nanjin, Roan Eagle, and Nita Yodo. (2021). A Review on Filament Materials for Fused Filament Fabrication. Journal of manufacturing and materials processing. Sathies, T., P. Senthil, and M. S. Anoop. (2020). AReview on Advancements in Applications of Fused Deposition Modelling Process. Rapid Prototyping Journal 26 (4): 669–87. Foresti, Ruben, Stefano Rossi, and Stefano Selleri. (2019). Bio-Composite Materials: Nano-Functionalization of 4D Bio-Engineered Scaffold. IEEE International Conference on BioPhotonics (BioPhotonics) 100–101. Attaran, Mohsen. (2017). The Rise of 3-D Printing: The Advantages of Additive Manufacturing over Traditional Manufacturing. Business Horizons 60 (5): 677–88. Huang, Samuel H., Peng Liu, Abhiram Mokasdar, and Liang Hou. (2013). Additive Manufacturing and Its Societal Impact: A Literature Review. International Journal of Advanced Manufacturing Technology 67 (5–8): 1191–1203. Nassar, Mona A, Mohammed Elfarahaty, Saber Ibrahim, and Youssef Hassan. (2019). Design of 3D Filament Extruder for Fused Deposition Modeling (FDM) Additive Manufacturing. International Design Journal 9 (4): 55–62. Holzmann, Patrick, Robert J. Breitenecker, Aqeel A. Soomro, and Erich J. Schwarz. (2017). User Entrepreneur Business Models in 3D Printing. Journal of Manufacturing Technology Management 28 (1): 75–94. Thomas. (2018). 3D printed jellyfish robots created to monitor fragile coral reefs. 3D Printer and 3D Printing News. Hausman. KK. & Horne. R. (2014). 3D Printing for Dummies, Wiley, Somerset. Avail-able from: ProQuest Ebook Central. Zhong, Shan, and Joshua M. Pearce. (2018). Tightening the Loop on the Circular Economy: Coupled Distributed Recycling and Manufacturing with Recyclebot and RepRap 3-D Printing. Resources, Conservation and Recycling 128 (January): 48–58. Kreiger, M., G. C. Anzalone, M. L. Mulder, A. Glover, and J. M. Pearce. (2013). Distributed Recycling of Post-Consumer Plastic Waste in Rural Areas. Materials Research Society Symposium Proceedings 1492: 91–96. Xiao, Xinran. (2008). Dynamic Tensile Testing of Plastic Materials. Polymer Testing 27 (2): 164–78. Letcher, T., & Waytashek, M. (2014). Material Property Testing of 3D-Printed Specimen in PLA on an Entry-Level 3D Printer. Volume 2A: Advanced Manufacturing). Wang, Juan, Jianping Qiu, Siyi Xu, Jianxi Li, and Liguo Shen. (2020). Electron Beam Irradiation Influencing the Mechanical Properties and Water Absorption of Polycaprolactam (PA6) and Polyhexamethylene Adipamide (PA66). RSC Advances 10 (36): 21481–86.