关键词: micro-injection molding, flowing simulation, micro-channel, 区间分析方法, 敏感性, MARC二次开发, Duncan_Chang模型

Abstract: In the micro-molding of component with a micro-sized channel, the ability for polymer melt to flowing into the micro-channel in a macro-sized part is a big challenge. The multidimensional flow behaviors are included in the injection molding the macrocomponent with a micro-channel. In this case, a simplified model is used to analyze the flow behaviors of the macro-sized part within a micro-channel. The flow behaviors in the macro-cavity are estimated by using the finite element and finite difference methods. The influence of the injection rate, micro-channel size, heat transfer coefficient, and mold temperature on the flowing distance is investigated based on the non-isothermal analytic method. The results show that an increase in the radius of the micro-channel and mold temperature can improve effectively the flowing distance in the micro-channel.

Key words: micro-injection molding, flowing simulation, micro-channel, analysis method, sensitivity, secondary development of Marc, Duncan-Chang model