1 20 9.473
16 60 250 80 2 10 9.481
17 60 250 80 2 15 9.491
18 60 250 80 2 20 9.483
19 80 230 120 2 10 8.685
20 80 230 120 2 15 8.683
21 80 230 120 2 20 8.686
22 80 240 80 3 10 8.769
23 80 240 80 3 15 8.652
24 80 240 80 3 20 8.645
25 80 250 100 1 10 9.921
26 80 250 100 1 15 9.979
27 80 250 100 1 20 9.659
with the measured values and to prove the accuracy of the
regression model created.
2. Experimental Methodology
2.1 Taguchi Orthogonal Array Design of Experiments
The design of experiments utilizing the orthogonal arrays is, in most cases, efficient and easy to use when compared to the traditional experimental design methods. It is necessary to reduce and to control the number of experiments. Furthermore, a large number of experiments have to be performed when the number of process parameters increases. In this study, 27 FE analyses based on Taguchi (L27) orthogonal arrays were run by utilizing plastic injection process parameters such as the mold temperature (Tmold), melt temperature (Tmelt), injection pressure (Pinj), injection time (Itime), and cooling time (Ctime) as shown in Table 1. The shrinkage parameter corresponds to the response value in developing the regression model. The shrinkage results obtained from FE analyses in Moldflow simulations are provided in Table 2. 塑料注射成型收缩值英文文献和中文翻译(4):http://www.youerw.com/fanyi/lunwen_79121.html