分析齿轮零件粉末注射成形(PIM)实验成形坯密度分布以及成品容易出现飞边和塌陷的位置特点。根据粉末注射成形技术工艺过程的特点给出PIM的双流体模型及初边界条件,基于计算流体力学软件CFX对I型拉伸试样和齿轮零件的PIM两相流动过程进行三维数值模拟。根据数值模拟结果,对PIM充模流动过程中粉末和粘结剂两相速度的变化曲线进行对比分析,证实I型拉伸试样和齿轮零件的PIM充模过程中多个位置发生过不同程度的粉末与粘结剂两相分离现象。对模腔中多个不同结点处发生粉末与粘结剂两项分离的现象进行分析比较。结果表明:PIM充模过程中位于远离浇口狭窄模腔内的点容易产生两相分离现象,粉末与粘结剂两相分离现象只发生在相应位置被充填初期的一段时间内,且不同位置发生的两相分离持续时间也不同。
The density distribution and sink defects location characteristics of powder injection molding (PIM) green parts for a gear part were analyzed. According to characteristics of PIM process, mathematical models of two-phase flow with proper initial and boundary conditions were given for PIM filling process. Three-dimensional numerical simulations of two-phase flow in PIM filling process were carried out for a tensile test specimen and a gear part using the CFD software CFX. Based on the numerical simulation results, the velocity variation curves of powder and binder during the filling process were compared and analyzed. The powder-binder two-phase separation of different degrees was confirmed happening during PIM filling process for the tensile test specimen and gear part. The binder-powder separation phenomena observed at different locations of the cavity were compared and analyzed. The results show that powder-binder separation phenomenon is more possible to occur at those points far from the inlet and locates in the narrow regions of cavity. The powder-binder separation occurs only at the initial stage of the time when the corresponding position is filled and time duration of two-phase separation is different for different locations.
参考文献
| [1] | 曲选辉.粉末注射成形的研究进展[J].中国材料进展,2010(05):42-47. |
| [2] | R.M.German,黄坤祥.美国MIM、PIM及相关PM技术之现状[J].粉末冶金技术,2006(05):384-387. |
| [3] | 赵小娟,党新安.金属粉末注射成形技术及模具的研究现状[J].模具技术,2008(05):11-14,62. |
| [4] | ROSOF B H .The metal injection molding process comes of age[J].Journal of Materials,1989,41(08):13-16. |
| [5] | GERMAN R M.Powder injection molding[M].Princeton,NJ:Metal Powder Industries Federation,1991 |
| [6] | Sudip K. Samanta;Himadri Chattopadhyay;Bjorn Pustal;Ralf Berger;Mahadev Malhar Godkhindi;Andreas Buhrig-Polaczek .A numerical study of solidification in powder injection molding process[J].International Journal of Heat and Mass Transfer,2008(3/4):672-682. |
| [7] | 刘烨,曲选辉,尹海清.数值模拟工艺参数对氧化铝陶瓷微齿轮注射成形影响[J].粉末冶金技术,2010(05):381-386. |
| [8] | 郑洲顺,曲选辉,韩旭里,张国栋.粉末注射成形充模流动过程模壁凝固层增长的计算与模拟[J].中国有色金属学报,2008(03):511-515. |
| [9] | 郑洲顺,曲选辉,雷长明.PIM充模流动过程中粘度的变化与缺陷形成[J].金属学报,2007(02):187-193. |
| [10] | Sudip K. Samanta;Himadri Chattopadhyay;Mahadev Malhar Godkhindi .Modelling the powder-binder separation in injection stage of PIM[J].Progress in computational fluid dynamics: An international journal,2011(5):292-304. |
| [11] | JENNI M;SCHIMMER L;ZAUNER R;STAMPFL J MORRIS J .Quantitative study of powder binder separation of feedstocks[J].Powder Injection Moulding International,2008,2(04):50-55. |
| [12] | 王玉会,曲选辉,何新波,张勇,赵丽明.硬质合金粉末注射成形偏析现象的数值模拟[J].稀有金属与硬质合金,2008(02):10-14. |
| [13] | 王玉会,曲选辉,何新波,张勇,赵丽明.粉末注射成型过程的双流体数学模型[J].机械工程材料,2008(05):74-77. |
| [14] | 范小欣 .MIM注射多相流模拟的各相本构和边界条件滑移[D].成都:西南交通大学,2006. |
| [15] | 封娟,何浩,李益民,王光耀.粉末共注射成形充模流动过程前沿位置及场分布的数值模拟[J].中国有色金属学报,2012(08):2333-2339. |
| [16] | NOVAC O A;ANTON D;NOVAC T .The rheological behavior of some binders and plastics used in injection molding[J].Powder Metallurgy,1994,94:113-120. |
| [17] | HWANG C J;KWON T H .A full 3D finite element analysis of powder injection molding filling process including slip phenomena[J].Ploymer Engineering and Science,2002,42(01):33-50. |
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