冰箱压缩机罩注塑成型流动平衡分析及模具技术研究
摘要
当前,塑料工业快速发展,塑料制品应用的范围越来越广,工业产品及日常用品塑料化程度越来越高。但注塑成型时常出现一系列的质量问题,比如产生熔接痕、填充不足、翘曲变形和尺寸误差等缺陷。特别是对于大型薄壁注塑件,如何预防塑胶制品翘曲是经常困扰工程师的一个难题。如果单凭经验来设计注塑模具,往往不能得到最优化的设计方案,揣测猜想成分增加,设计是否合理则要通过实际试模来验证。这将导致试模不合格后反复修模,有时还得不到最优化设计方案。
本文首先简要概述了大型精密注射模具设计与制造技术,在聚合物流变学理论的基础上,进而分析翘曲变形的产生机理及影响的主要因素。
在此基础上,以某品牌大型薄壁冰箱压缩机罩塑件为研究对象,运用注塑模具CAE软件Moldflow对塑料熔体在模具型腔中的保压、填充、锁模力、模腔残余应力、熔接痕及翘曲变形等各个阶段进行了模拟分析,通过对不同浇注系统模拟的对比分析,得出浇注系统的优化设计方案。针对冰箱压缩机罩在试模过程中出现的翘曲变形问题,运用正交设计法设计了一个L18的正交试验,研究注塑成型工艺参数(熔料温度、模具温度、保压压力、注射时间、保压时间、冷却时间)及其交互作用对翘曲变形的影响度,得到翘曲变形最小的工艺参数组合。然后用得出的最优注塑成型工艺参数组合,通过CAE模拟试验及生产实验验证了最优注塑成型工艺参数组合能明显减小翘曲变形。
模具的成型工艺以及整体模具结构确定后,通过Pro/E的建模模块、模具设计模块及工程图模块对模具进行三维设计。最终实现了冰箱压缩机罩模具的整体三维设计,并完成模具装配图及各零件的工程图的转换。
通过将CAD/CAE技术引入注塑模具设计特别是大型薄壁注塑模具设计中,能够大大提升塑胶制品的质量,提高生产效率。
At present, with the development of plastics industry, the application of plastics have extended larger and larger, specially in the sphere of industry and ordinary product。But injection molding often results many product problems such as short shots、weld line、warp、dimension error and so on。How to decrease the plastics warp is a puzzle for engineer specially to the thin-wall and large-size product。If injection mold is designed only by experience on gating and cooling system。Usually it is not optimized and contain guessing besides factors, this design will have to be done again, which may be a long and reduplicative progress and possibly the best result can no be got。
In this paper, firstly provides the technology of mold design and manufacture to the large-size and precise injection molding。Describes the generation mechanism of warpage and analyze the factors that affect the warpage based on theory of flowing of the polymer。
On this foundation, taking a thin-walled refrigerator shell part for example, when use mold CAE software Moldflow, simulat about the filling、packing、clamp force、residental stress、weld line、warp and so on。Through comparing simulating result to the different of gating system, then get the best gating system scheme。To solve the warpage problem of the refrigerator shell in mold trial, arrange the simulation according to orthogonal experiment theory, the L18 orthogonal experiment table is designed, the warpge data are obtained under different molding conditions (mold temperature、melt temperature、injection time、packing pressure、packing time、cooling time), and obtain the optimum set of factors。Then use this optimum set of facrors, the result show the optimum set of factors can be effectively reduce the warpage o
After define the injection process and the whole structure of the mold, through using the molding module、mold design and the drawing module of the software Pro/E realize the 3D mold design。Finally to finish the mold design of the refrigerator shell。
Through using the CAD/CAE technology in design of injection mold specially the thin wall and large size injection mold。We can improve the quality of the product and productivity effect。
本文首先简要概述了大型精密注射模具设计与制造技术,在聚合物流变学理论的基础上,进而分析翘曲变形的产生机理及影响的主要因素。
在此基础上,以某品牌大型薄壁冰箱压缩机罩塑件为研究对象,运用注塑模具CAE软件Moldflow对塑料熔体在模具型腔中的保压、填充、锁模力、模腔残余应力、熔接痕及翘曲变形等各个阶段进行了模拟分析,通过对不同浇注系统模拟的对比分析,得出浇注系统的优化设计方案。针对冰箱压缩机罩在试模过程中出现的翘曲变形问题,运用正交设计法设计了一个L18的正交试验,研究注塑成型工艺参数(熔料温度、模具温度、保压压力、注射时间、保压时间、冷却时间)及其交互作用对翘曲变形的影响度,得到翘曲变形最小的工艺参数组合。然后用得出的最优注塑成型工艺参数组合,通过CAE模拟试验及生产实验验证了最优注塑成型工艺参数组合能明显减小翘曲变形。
模具的成型工艺以及整体模具结构确定后,通过Pro/E的建模模块、模具设计模块及工程图模块对模具进行三维设计。最终实现了冰箱压缩机罩模具的整体三维设计,并完成模具装配图及各零件的工程图的转换。
通过将CAD/CAE技术引入注塑模具设计特别是大型薄壁注塑模具设计中,能够大大提升塑胶制品的质量,提高生产效率。
At present, with the development of plastics industry, the application of plastics have extended larger and larger, specially in the sphere of industry and ordinary product。But injection molding often results many product problems such as short shots、weld line、warp、dimension error and so on。How to decrease the plastics warp is a puzzle for engineer specially to the thin-wall and large-size product。If injection mold is designed only by experience on gating and cooling system。Usually it is not optimized and contain guessing besides factors, this design will have to be done again, which may be a long and reduplicative progress and possibly the best result can no be got。
In this paper, firstly provides the technology of mold design and manufacture to the large-size and precise injection molding。Describes the generation mechanism of warpage and analyze the factors that affect the warpage based on theory of flowing of the polymer。
On this foundation, taking a thin-walled refrigerator shell part for example, when use mold CAE software Moldflow, simulat about the filling、packing、clamp force、residental stress、weld line、warp and so on。Through comparing simulating result to the different of gating system, then get the best gating system scheme。To solve the warpage problem of the refrigerator shell in mold trial, arrange the simulation according to orthogonal experiment theory, the L18 orthogonal experiment table is designed, the warpge data are obtained under different molding conditions (mold temperature、melt temperature、injection time、packing pressure、packing time、cooling time), and obtain the optimum set of factors。Then use this optimum set of facrors, the result show the optimum set of factors can be effectively reduce the warpage o
After define the injection process and the whole structure of the mold, through using the molding module、mold design and the drawing module of the software Pro/E realize the 3D mold design。Finally to finish the mold design of the refrigerator shell。
Through using the CAD/CAE technology in design of injection mold specially the thin wall and large size injection mold。We can improve the quality of the product and productivity effect。
引文
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[28]刘俊松,黄文杰.基于Moldflow的塑料台历架CAE分析[J].塑料科技,2008,36(4):45-47.
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[38]江毅,肖任贤,张培栋.基于MPI的浇道系统优化设计[J].科技信息,2009, (18):92-94.
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[3]刘丽平.空调面板注塑模充模流动分析及工艺参数优化[D].太原:太原理工大学,2010.
[4]王华侨,张文奇,邓方亮Moldflow在某大型薄壁异形件注塑成型模拟分析中的应用[J].CAD/CAM与制造业信息化,2007, (9):87~90.
[5]李德群.模具的CAD/CAE/CAM技术[J].电加工与模具,2006,(1):23-26.
[6]李雯雯,卢军,刘洋Moldflow软件在注塑模具CAE中的应用[J].工程塑料应用,2009,37(9):63-66.
[7]杨虹.模具结构对典型注塑件翘曲的影响及优化方法[D].上海:上海交通大学,2008.
[8]李德群,肖祥芷.模具CAD/CAE/CAM的发展概况及趋势[J].模具工业,2005,(7)45~49.
[9]陈晓平.薄壳件注塑成型工艺参数优化研究[D].杭州:浙江大学,2005.
[10]W.DiseiPio, A.Wagle, S.P.Meearthy. Verifieation Mold for Flow, Cooling, Shrinkage and WarPage Analysis [J].ANTEC,1999, (10):31-32..
[11]D.W.Radford, R.J.Dieefndorf.ShaPe Instabilities in ComPosites Resulting form Laminate AnisotroPy [J]. Journal of Reinforced Plasties ComPosites,1993, (12):58-62.
[12]董斌斌,申长雨,李倩.注塑成型薄壁制品收缩与翘曲因素[J].化工学报,2005,56(4):727~731.
[13]骆志高,王海涵,注射工艺参数对薄壳塑件翘曲变形的影响[J].模具工业,2006,32(9):53-56.
[14]骆志高,王忙忙,李瑾.薄壁件翘曲变形CAE分析[J],塑料工业,2007,35(6):32-34.
[15]Babur Ozcelik, Ibrahim Sonat.Warpage and structural analysis of thin shell plastic in theplastic injection molding[J].Material and Design,2009, (30):367-375.
[16]王彦岗,瞿金平,晋刚.注塑矩形薄壁型腔的玻纤取向分布研究[J].塑料工业,2009,37(2):22-25.
[17]郭志英,李德群.注塑制品翘曲变形的研究[J].塑料科技,2001, (6):52-54.
[18]李海梅.注塑件翘曲变形的CAE研究[J].中国塑料,2005,(6):73-79.
[19]申长雨,李海梅.塑料模具CAE技术概况及其发展趋势[J].工程塑料应用,2001,29(2):40~43.
[20]齐晓杰.塑料成型工艺与模具设计[M].北京:机械工业出版社,2007.
[21]江体乾.工业流变学[M].北京:化学工业出版社,1995.
[22]杨瑞芳.流变学理论基础及其应用[M].重庆:重庆大学出版社,1999.
[23]Wilder V R, CAD/CAM/CAE in Moldmaking:A Precision Tool for Profitability [J].Modem Plasties International,1990,5(1).
[24]付燕.注塑件翘曲变形分析及其解决途径[J].机电工程技术,2006,35(5):23-29.
[25]洪慎章.塑料收缩性对塑件尺寸精度的影响[J].模具制造,2006,(6):4-7.
[26]陈建华,塑料注射制品翘曲变形研究[D].合肥:合肥工业大学,2006.
[27]Takaaki Matsuoka, Integrated simulation to predict warpge of injections molded parts [J]. Polymer Engineeting and Science,2005,31(14)30-37.
[28]刘俊松,黄文杰.基于Moldflow的塑料台历架CAE分析[J].塑料科技,2008,36(4):45-47.
[29]马浩军,胡广洪,阮雪榆.利用MoldFlow软件分析解决注塑件翘曲问题[J].模具技术,2006,(5):57~59.
[30]董斌斌,申长雨,刘春太.注射工艺参数对PC/ABS材料制品收缩与翘曲的影响[J].高分子材料与工程,2005,21(4):232-235.
[31]郎洪明.酶箱盖通气装置注射模设计[J].模具制造,2010,10(11):64-67.
[32]王海涵.基于模态试验对薄壳塑件刚度的分析研究[[D].镇江:江苏大学,2006.
[33]李欣欣.薄壁件注射成型的翘曲变形分析与工艺优化[D].镇江:江苏大学,2010
[34]张小甫,阎峰云,王翠香MoldFlow和Plastic Advisor在注塑成型中的应用[J].模具技术,2004,(2)66~68.
[35]罗广思,柏铁山Moldflow/IMOLD技术在注塑模设计中的应用[J].模具技术,2009,(2):29~32.
[36]李金良,龙玲.注塑制品的翘曲变形分析[J].CAD/CAM与制造业信息化,2003, (7):79-82.
[37]李海梅,高峰,中长雨.注塑中的CAE技术(Ⅱ):应用方法[J].工程塑料应用,2004,32(1):59~62.
[38]江毅,肖任贤,张培栋.基于MPI的浇道系统优化设计[J].科技信息,2009, (18):92-94.
[39]陈已明,彭响方,赖鹏.基于Midplane网格单元Hypermesh与Moldflow的网格前处理[J].塑料科技,2007,35(3):66~68.
[40]Moldflow Corporation. Default Properties Database. Moldflow plastics Insight Help,2010.
[41]齐卫东.塑料模具设计与制造[M].北京:高等教育出版社,2008.
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