热流道技术在注塑模具中的应用与发展
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摘要
介绍了热流道技术及其特点,并结合叠层模具和计算机辅助软件在热流道注塑模具中的应用情况,总结了热流道技术在国内外的研究及应用现状。结果表明:元件的微型化、标准化、系列化,热流道模具设计整体可靠性的提高及计算机辅助应用软件的普及是热流道技术的发展趋势。
The hot runner technology and its features were introduced, and the current situation of study and application about hot runner at home and abroad was summarized. The summary was concluded with the fact that the stack mold and the computer-assisted software would be applied in injection molds of hot runner. Miniaturization, standardization and serialization of components will become the development trends of hot runner technology, as well as the entire reliability improvement of the mold design in hot runner and the popularity of the computerassisted software.
The hot runner technology and its features were introduced, and the current situation of study and application about hot runner at home and abroad was summarized. The summary was concluded with the fact that the stack mold and the computer-assisted software would be applied in injection molds of hot runner. Miniaturization, standardization and serialization of components will become the development trends of hot runner technology, as well as the entire reliability improvement of the mold design in hot runner and the popularity of the computerassisted software.
引文
[1]田志强.基于CAE技术的双层热流道注射模具的优化设计[D].青岛:青岛科技大学,2010.
[2]Shen H,Liu F.Application of hot runner computer aided engineering(CAE)in washing machine panel molding[J].Polymer Materials Science&Engineering,2013,29(10):175-178.
[3]Demirer A,Soydan Y,Kapti A O.An experimental investigation of the effects of hot runner system on injection moulding process in comparison with conventional runner system[J].Materials&Design,2007,28(5):1 467-1 476.
[4]Mehta C.Hot runner technology[J].Popular Plastics&Packing,2008,53(11):53-54.
[5]夏天,范进桢.大尺寸电视面框热流道注射模具设计[J].工程塑料应用,2014,42(9):58-62.
[6]李传戈.热流道热平衡及测控系统的应用研究[D].成都:西南交通大学,2008.
[7]张朝阁,宓大云,张亚.热流道塑料模具技术的研究与发展前景[J].塑料工业,2013(7):5-9.
[8]邱德琴.基于Pro/E和Moldflow注塑模具设计与CAE实例分析[D].南京:南京理工大学,2014.
[9]Zhen Z,Yan G.Design of the fuzzy PID controller for the hot runner temperature control system[C].2013 32nd Chinese Control Conference,2013:3 464-3 469.
[10]曾建忠.PET瓶胚注塑模具热流道关键技术研究及应用[D].杭州:浙江大学,2012.
[11]Seo T I,Song B U,Lee J W.Design and fabrication of multi-cavity injection mold using hot runners and direct edge gates[J].Proceedings of the Institution of Mechanical Engineers Part C:Journal of Mechanical Engineering Science,2014,228(15):2 790-2 798.
[12]陈进武,曹轶杰,苏庆勇.Moldflow在塑料模热流道技术中的应用[J].塑料工业,2014,42(4):31-34.
[13]陈剑玲,李昌雪.透明壳盖侧抽模热流道系统的设计[J].中国塑料,2014,28(5):115-118.
[14]郑子军,肖国华,尤建国,等.带深沟拉手位冰箱抽屉转动式侧抽芯机构热流道模具设计[J].工程塑料应用,2015,41(3):80-84.
[15]刘保臣,陈静波,申长雨.双脱模模具结构设计[J].工程塑料应用,2007,35(4):65-67.
[16]肖国华.手机结构壳潜伏浇口转侧浇口浇注及模具结构设计[J].模具技术,2014(1):10-13.
[17]孔茗,芮延年,许戴铭.基于软件汽车保险杠整体式热流道优化设计[J].塑料科技,2015,43(6):71-74.
[18]范伟.汽车仪表盘右侧饰板热流道模具设计[J].塑料工业,2014,42(5):53-55.
[19]陈鹏,刘仕昌,徐秋红.塑料面板的热流道倒装注塑模的创新设计[J].工程塑料应用,2013,41(11):67-69.
[20]何冰强,廖春玲,肖国权.餐具盒热流道注射模具设计[J].工程塑料应用,2012,40(12):68-71.
[21]刘琼,林纪宗.液晶显示器承载托盘热流道注塑模设计[J].工程塑料应用,2013,41(2):58-60.
[22]李仕成,陈泽中,汪薇,等.汽车保险杠注塑模具热流道系统热平衡分析及设计[J].塑料工业,2013,41(7):47-50.
[23]王晓军,周孟雄,袁包妹,等.笔记本内壳叠层热流道注射模具设计[J].机械设计与制造,2013(5):244-245.
[24]党玉春,刘泓滨,丁清国.热流道顺序控制技术在大型注塑模中的应用[J].塑料,2013,42(4):67-70.
[25]纪仁敏,胡青春,姜晓平.针阀式群腔热流道板的温度场有限元分析[J].塑料,2013,42(6):90-93.
[26]胡青春,纪仁敏,姜晓平.基于Moldflow的144腔PET瓶坯模具热流道系统设计[J].塑料工业,2013(4):45-48.
[27]徐振宇.热流道注塑中大尺寸细长薄壁塑件成型周期及翘曲变形控制研究[J].中国塑料,2014,28(1):93-98.
[28]陈进武,曹轶杰,苏庆勇.Moldflow在塑料模热流道技术中的应用[J].塑料工业,2014,42(4):31-34.
[29]Tzu-Chau Chen,Chao-Tsai Huang,Yan-Chen Chiu,et al.Material saving and product quality improvement with the visualization of hot runner design in injection molding[J].International Journal of Precision Engineering&Manufacturing,2013,14(6):1 109-1 112.
[2]Shen H,Liu F.Application of hot runner computer aided engineering(CAE)in washing machine panel molding[J].Polymer Materials Science&Engineering,2013,29(10):175-178.
[3]Demirer A,Soydan Y,Kapti A O.An experimental investigation of the effects of hot runner system on injection moulding process in comparison with conventional runner system[J].Materials&Design,2007,28(5):1 467-1 476.
[4]Mehta C.Hot runner technology[J].Popular Plastics&Packing,2008,53(11):53-54.
[5]夏天,范进桢.大尺寸电视面框热流道注射模具设计[J].工程塑料应用,2014,42(9):58-62.
[6]李传戈.热流道热平衡及测控系统的应用研究[D].成都:西南交通大学,2008.
[7]张朝阁,宓大云,张亚.热流道塑料模具技术的研究与发展前景[J].塑料工业,2013(7):5-9.
[8]邱德琴.基于Pro/E和Moldflow注塑模具设计与CAE实例分析[D].南京:南京理工大学,2014.
[9]Zhen Z,Yan G.Design of the fuzzy PID controller for the hot runner temperature control system[C].2013 32nd Chinese Control Conference,2013:3 464-3 469.
[10]曾建忠.PET瓶胚注塑模具热流道关键技术研究及应用[D].杭州:浙江大学,2012.
[11]Seo T I,Song B U,Lee J W.Design and fabrication of multi-cavity injection mold using hot runners and direct edge gates[J].Proceedings of the Institution of Mechanical Engineers Part C:Journal of Mechanical Engineering Science,2014,228(15):2 790-2 798.
[12]陈进武,曹轶杰,苏庆勇.Moldflow在塑料模热流道技术中的应用[J].塑料工业,2014,42(4):31-34.
[13]陈剑玲,李昌雪.透明壳盖侧抽模热流道系统的设计[J].中国塑料,2014,28(5):115-118.
[14]郑子军,肖国华,尤建国,等.带深沟拉手位冰箱抽屉转动式侧抽芯机构热流道模具设计[J].工程塑料应用,2015,41(3):80-84.
[15]刘保臣,陈静波,申长雨.双脱模模具结构设计[J].工程塑料应用,2007,35(4):65-67.
[16]肖国华.手机结构壳潜伏浇口转侧浇口浇注及模具结构设计[J].模具技术,2014(1):10-13.
[17]孔茗,芮延年,许戴铭.基于软件汽车保险杠整体式热流道优化设计[J].塑料科技,2015,43(6):71-74.
[18]范伟.汽车仪表盘右侧饰板热流道模具设计[J].塑料工业,2014,42(5):53-55.
[19]陈鹏,刘仕昌,徐秋红.塑料面板的热流道倒装注塑模的创新设计[J].工程塑料应用,2013,41(11):67-69.
[20]何冰强,廖春玲,肖国权.餐具盒热流道注射模具设计[J].工程塑料应用,2012,40(12):68-71.
[21]刘琼,林纪宗.液晶显示器承载托盘热流道注塑模设计[J].工程塑料应用,2013,41(2):58-60.
[22]李仕成,陈泽中,汪薇,等.汽车保险杠注塑模具热流道系统热平衡分析及设计[J].塑料工业,2013,41(7):47-50.
[23]王晓军,周孟雄,袁包妹,等.笔记本内壳叠层热流道注射模具设计[J].机械设计与制造,2013(5):244-245.
[24]党玉春,刘泓滨,丁清国.热流道顺序控制技术在大型注塑模中的应用[J].塑料,2013,42(4):67-70.
[25]纪仁敏,胡青春,姜晓平.针阀式群腔热流道板的温度场有限元分析[J].塑料,2013,42(6):90-93.
[26]胡青春,纪仁敏,姜晓平.基于Moldflow的144腔PET瓶坯模具热流道系统设计[J].塑料工业,2013(4):45-48.
[27]徐振宇.热流道注塑中大尺寸细长薄壁塑件成型周期及翘曲变形控制研究[J].中国塑料,2014,28(1):93-98.
[28]陈进武,曹轶杰,苏庆勇.Moldflow在塑料模热流道技术中的应用[J].塑料工业,2014,42(4):31-34.
[29]Tzu-Chau Chen,Chao-Tsai Huang,Yan-Chen Chiu,et al.Material saving and product quality improvement with the visualization of hot runner design in injection molding[J].International Journal of Precision Engineering&Manufacturing,2013,14(6):1 109-1 112.