[1] ZEMA L, LORETI G, MELOCCHI A, et al.. Injection molding and its application to drug delivery [J]. Controlled Release,2012,159(3): 324-331.
[2] LOPPMANN J M, GEIGER E J, PISANO A P. Polymer investment molding: method for fabricating hollow, microscale parts [J]. Sensors and Actuators A: Physical, 2007,134(1):2-10.
[3] SONG M C, LIU Y, ZHU T L. Injection molding of plastic microfluidic chip [J]. Nanotechnology and Precision Engineering,2011,9(4):329-334.
[4] BABUR O, SONAT I. Warpage and structural analysis of thin shell plastic in the plastic injection molding [J]. Materials and Design,2009,30(2):367-375.
[5] SANCHZE R, AISA J, MARTINEZ A, et al.. On the relationship between cooling setup and warpage [J]. Measurement,2012,45(5): 1051-1056.
[6] TANG S H, TAN Y J, SAPUAN S M, et al.. The use of Taguchi method in the design of plastic injection mould for reducing warpage [J]. Materials Processing Technology,2006,182(1-3): 418-426.
[7] SHEN C Y, WU H H, ZHAO Z F. Non-linear viscoelastic constitutive equation to calculate internal stress of inject ion molded articles [J]. Journal of Chemical Industry and Engineering,2007,58(2): 490-494.(in Chinese)
[9] HAKMIAN E, SULONG A B. Analysis of warpage and shrinkage properties of injection-molded micro gears polymer composites using numerical simulations assisted by the Taguchi method [J].Materials & Design, 2012, 42:62-71.
[10] REDDY B S, KUMAR J S, REDDY V K, PADMANABHAN G. Application of soft computing for the prediction of warpage of plastic injection molded parts [J]. Engineering Science and Technology Review, 2012,2 (1): 56-62.
[11] KRAMSCHUSTER A, CAVITT R, ERMER D, et al. Quantitative study of shrinkage and warpage behavior for microcellular and conventional Injection molding [J]. Polymer Engineering &Science, 2005,45 (10):1408-1418.
