부산대학교 도서관

With the development of 3D printer technology, industrial zones now can produce much product through the connection of each layer of the material by using a 3D printer. But the lack of interest in the study of the room temperature with the air-conditioning effect on the quality of the product still not receive the attention of scientists especially industrial system engineers. In the present study, the 3D printer hook was used as the imitated object, and the effect of the temperature on the hook was analyzed on force resistance. The setup of the experiments and parameters of the hook was then progressed by Taguchi. Also, based on the experiment results, the Minitab17 software was used to analyze the data. By an inspection of the trend of the force resistance on the hook, indicating that the Nozzle temperature had the most significant effect besides the AC room temperature. The results for the optimal design parameters show a good agreement with the achievement for the best combination of the model on force resistance is P11P21P31. With the AC room temperature P11 (18℃), nozzle temperature P21 (195℃), fan speed P31 (30%) and the maximum force the hook can be resisted is 85.35 N. The conclusion is drawn about the effects of AC room temperature on force resistance of 3D printing hook then promote the new way for developing the method to apply for controlling the quality of 3D products. [ABSTRACT FROM AUTHOR]