熔体剪切变稀特性对聚合物水辅共注射成型过程的影响被引量：2

Influence of Melt Shear-thinning on Polymer Water Assisted Co-injection Molding Process

下载PDF

导出

摘要通过建立的全三维非稳态非等温水辅共注射成型过程有限元数值模拟算法与技术,系统研究了芯层熔体剪切变稀特性对水辅共注射成型中水与芯层熔体的穿透过程和前沿界面运动稳定性的影响规律,并揭示了其机理。结果表明,随着芯层熔体剪切变稀特性增加,水辅共注射成型水和芯层穿的透深度增大,这有利于细长制品的水辅共注射成型。然而芯层熔体剪切变稀特性的增加会使水与芯层熔体前沿移动界面流动趋于不稳定,严重影响制品内表面成型品质。 The influence of melt shear-thinning on the penetration of water or core melt and on the flow stability at front moving interface in the water-assisted co-injection molding were studied by means of the established full three-dimensional unsteady and non-isothermal finite element numerical simulation algorithm and technology of water-assisted co-injection molding process. The influencing mechanism was finally revealed by theoretical analysis. It showed that with increasing shear-thinning effect, the depth of water and core melt penetration increased, which was conducive to water-assisted co-injection molding of slender plastic products and made the front moving interface between water and core melt unstable, which affected seriously the inner surface quality of water-assisted co-injection molding products.

作者周国发巢芳超闫丽

机构地区南昌大学环境科学与化学工程学院

出处《中国塑料》 CAS CSCD 北大核心 2013年第8期71-76,共6页 China Plastics

关键词水辅共注射成型成型机理数值模拟剪切变稀特性 water-assisted co-injection molding formation mechanism numerical simulation shear-thinning effect characteristics

分类号 TQ320.52 [化学工程—合成树脂塑料工业]

引文网络
相关文献

参考文献9

1周国发,柳和生,何成宏,孙懋.共注成形充模流动的理论模型和模拟[J].机械工程学报,2003,39(3):94-99. 被引量：8
2周国发,孙懋.聚合物全三维非稳态非等温多相分层流动成型过程的理论模型和数值模拟[J].机械工程学报,2004,40(9):16-22. 被引量：25
3Liu Shihjung ,Wu YichuarL Dynamic Visualization of Cavity- filling Process in Fluid-assisted Injection Molding-gas Ver- sus Water-JJ. Polymer Testing, 2007, 26:232-242.
4Ahmad Zia Hmadzai, Amir Hossein Behravesh. Effect of Processing Parameters on Water Penetration in Water As- sisted Injection Molding of ABS [J. Polymer, 2011, 56 (3) :232-239.
5Shih-Jung Liu, Shih-Po Lin. Factors Affecting the Forma- tion of Fingering in Water Assisted Injection Molded Ther- moplastics[J]. Advances in Polymer Technology, 2006,25 (2) : 98-108.
6Shih Jung Liu, Yen-show Chen. Water-assisted Injection Molding of Thermoplastic Materials: Effects of Processing Parameters I-J. Polymer Engineering Science,2003, 43 (11) : 1806-1817.
7张增猛,周华,高院安,杨华勇.水辅助注射成型充模流动的仿真与分析[J].机械工程学报,2010,46(8):140-146. 被引量：22
8周国发,徐智迅.集成Moldflow与多岛遗传算法的共注成型多参数智能优化[J].南昌大学学报（工科版）,2011,33(4):370-373. 被引量：4
9周国发,徐智迅,刘岑.聚合物微型机械模内组装成型流固耦合变形分析研究[J].中国塑料,2012,26(2):68-73. 被引量：4

二级参考文献37

1周国发,柳和生,何成宏,张效迅,孙懋.共注成型芯壳层熔体粘度对芯壳层界面和移动前沿形貌的影响[J].复合材料学报,2004,21(4):24-28. 被引量：18
2周国发,孙懋.聚合物全三维非稳态非等温多相分层流动成型过程的理论模型和数值模拟[J].机械工程学报,2004,40(9):16-22. 被引量：25
3段瑞玲,李玉和,李庆祥.国内微型器件装配技术的现状与应用[J].光机电信息,2005,22(7):13-18. 被引量：5
4KNIGHTS M. Water injection molding makes hollow parts faster, lighter [J]. Plastics Technology, 2002, 48(4): 42-47.
5MICHAELI W, JUNTGEN T, BRUNSWICK A. WIT - en route to series production: first industrial application of the water injection technique [J]. Kunststoffe Plast Europe, 2001, 91(3): 37-39.
6PROTTE R, BANGERT H, COOPER C, et al. Water-assist injection molding - an innovative process technology for productivity improvement: developments in processing, equipment and materials [C]// Proceedings of the 61st Annual Technical Conference of SPE, May 4-8, 2003, Nashville, TN, USA. Brookfield: SPE/ANTEC, 2003: 404-408.
7LIANG J C, LI Yi, ZHOU D H, et al. Analysis of diffusion mechanism between gas and melt in gas-assisted injection molding [J]. Journal of Materials Processing Technology, 2007, 187: 685-689.
8CHANG R Y, HUANG C T, YANG W H, et al. The investigation of flow behavior of polymeric melts in the water assisted injection molding [C]// Proceedings of the 62nd Annual Technical Conference of SPE, May 16-20, 2004, Chicago, IL, USA. Brookfield: SPE/ANTEC, 2004: 566-569.
9LI C T, ISAYEV A I. Primary and secondary gas penetration during gas-assisted injection molding part I: formulation and modeling [J]. Polymer Engineering and Science, 2004, 44(5): 983-991.
10WILCOX D C. Turbulence modeling for CFD [M]. La Canada, CA. DCW Industries, 1993.