Özet:

In the last century, polymer materials such as polylactic acid (PLA), acrylonitril budadien stiren (ABS) and polyethylene tereftalate glycol (PET-G) have been frequently used in many industrial fields because they are light, cheap, sustainable and provide sufficient resistance for engineering applications. Although plastic materials are mostly produced by extraction method, the three-dimensional (3B) printing method has also attracted the attention of researchers over the past decade due to its advantages over traditional manufacturing methods. When studies in literature related to polymers produced by 3B printing are studied, it is found that the studies are mainly focused on mechanical performance determining tests such as drawing, printing, three-point curving. In this study, in addition to the determination of the hardness and pull resistance of PET-G parts produced by the method of diluted accumulation modeling (EYM), the impact of layer height (0,1 mm, 0,2 mm and 0,4 mm) on the weight reduction impact of parts at different medium temperatures such as 20 0C, 40 0C and 60 0C was studied. The results show that the maximum average hardness value for a piece with a layer height of 0.4 mm is achieved at 69.4 Shore D, while the minimum average drawing resistance value is observed at the same piece at 39.24 MPa. Also, the energy absorption layer height has been determined to be more dominant than the test temperature. As a result, the maximum absorbed energy in the sample at a 0.1 mm layer height tested at 60 0C was observed at 67.335 J. On the other hand, the sample with a layer height of 0.4 mm and tested at an average temperature of 40 0C, absorbed the minimum energy with 28.070 J. Finally, according to macroscopic and microscopic detections, no breaks were observed in samples with a layer height of 0.4 mm, while samples with a layer height of 0.1 mm and 0.2 mm found that breaks were formed from the center to the corner.

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