流体驱动弹头辅助注塑技术的演变

doi:10.19491/j.issn.1001-9278.2018.12.021

中国塑料 ›› 2018, Vol. 32 ›› Issue (12): 132-137.DOI: 10.19491/j.issn.1001-9278.2018.12.021

流体驱动弹头辅助注塑技术的演变

匡唐清¹,冯强¹,徐盼¹,刘文文¹,柳和生²

1. 华东交通大学机电与车辆工程学院
2. 东华理工大学机电工程学院

收稿日期:2018-07-03 修回日期:2018-10-29 出版日期:2018-12-26 发布日期:2019-01-25
基金资助:
国家自然科学基金项目（51563010，21664002）；江西省自然科学基金项目（20181BAB206014）

Evolution of Fluid-Projectile-Assisted Injection Molding Technology

Received:2018-07-03 Revised:2018-10-29 Online:2018-12-26 Published:2019-01-25

摘要/Abstract

摘要： 传统流体驱动弹头辅助注塑工艺（FPAIM）存在较多局限，详细阐述了FPAIM技术的演变。通过采取合适手段可实现通管、两段封闭的中空管、歧管的FPAIM成型；通过采取合适的弹头形状、弹头材质及弹头成型方法实现弹头的稳定穿透、变截面管的成型及弹头的高效成型与去除；通过对模具进行改造实现弹头的稳定穿透，获得均匀壁厚；FPAIM用于弹性中空件的成型及与其他工艺相结合，拓展了该工艺的应用及该工艺制件的功能。

Abstract: There have many limitations in the traditional fluid-projectile-assisted injection molding (FPAIM) process. Therefore, the evolution of the FPAIM technology was discussed in detail. The FPAIM molding for the pipes with ends openings, closed voids and branches were realized by adopting proper means. The pipes with variable cross-section, the efficient molding and the removal of projectile were achieved by selecting a proper projectile shape, projectile material and projectile formation method, the stable penetration of projectile. A stable penetration of projectile could be obtained by the modification of the mold, resulting in a uniform wall thickness. The application of FPAIM process and the functions of FPAIM parts could be expanded when this technology was used for the formation of elastic hollow pieces in combination with other processes.

匡唐清冯强徐盼刘文文柳和生. 流体驱动弹头辅助注塑技术的演变[J]. 中国塑料, 2018, 32(12): 132-137.

参考文献

参考文献
[1]IIDA ISAO. Manufacture of hollow body: JP, H04208425 [P]. 1992-07-30.

[2]匡唐清, 刘文文, 吴丽旋,等. 流体驱动弹头辅助注塑技术[J]. 高分子材料科学与工程, 2016, 32(11):184-190.
Tangqing KUANG，Wenwen LIU，Lixuan WU, et al. Review of Fluid- Projectile-Assisted Injection Molding Technology[J]. Polymer Material Science & Engineering, 2016, 32(11): 184-190..

[3]Hopmann C, Michaeli W, Gründler M, Gr?nlund O, Neuss A. Process development of the projectile injection technique (PIT)[C], Boston : Annual Technical Conference of the Society of Plastics Engineers 2011 , ANTEC 2011:1706-1710.

[4]Moritz G, Tilo H. Method for producing polymeric hollow portion, involves forming cavity with respect to displacement of fluent molding material: DE, 102011100132[P]. 2012-10-31.

[5]Janssen H, Jung-K?nig A. Herstellung eines thermoplastischen Gegenstandes mit einem Hohlraum Preparing a thermoplastic article with a cavity: DE , 102009031591[P].2009.

[6]Hopmann C, Behmenburg C, Manufacturing of Elastomeric. Hollow Bodies Using the Projectile Injection Technique[C], Cincinnati : Annual Technical Conference of the Society of Plastics Engineers 2013, ANTEC 2013: 282-285, 2013.

[7]Hopmann C, Recht U. Manufacturing of fiber-reinforced, elastomeric parts using the injection moulding process[C]. Orlando: Society of Plastics Engineering Technical Conference 2015, 2015:1728-1732.

[8]刘文文,匡唐清,赖德炜,等. 管件流体-弹头辅助注射成型实验初步研究[J]. 塑料工业, 2016, 44(11):138-142.
Wenwen Liu, Tangqing Kuang, Dewei Lai, et al. Priliminary Experimental Investigation on the Fluid-Projectile-Assisted Injection Molding Pipes[J]. China Plastics Industry. 2016, 44(11):138-142.

[9]杨帆, 匡唐清, 刘文文, 柳和生. 水驱动弹头辅助注塑弯管的壁厚分布[J]. 高分子材料科学与工程, 2017, 33(11):.
Fan YANG, Tangqing KUANG，Wenwen LIU，Hesheng LIU. Distribution of Residual Wall Thickness of Water-Projectile-Assisted Injection Molding Pipes with Curved Sections[J]. Polymer Material Science & Engineering, 2017, 33(11).

[10]Eckardt, Helmut. Making Parts Lightweight & Strong with New Technologies [J]. Plastics Technology，2012, 58(2):30

[11]Knights, M. Water injection molding makes hollow parts faster, lighter[J], Plast. Tech, 2002, 48(4): 42-47.

[12]Hidetoshi Akutu, Isao Iida, Hiroki Katagiri,Masaki Ono, Minoru Oziro, Mituo Watanabe. Method and apparatus for molding hollow article :EP, 0757936B1[P].2001-12-09.

[13]Yasuhiko Hata, Tomoyoshi Sakamoto, Minoru Ojiro, Hiroki Katagiri, Takashi Hirose: Hollowed body molding device: US，08827690 B2［P］．2014-09-09

[14]Helmut Eckardt. Device and method for the injection molding of a molded part comprising at least one void:US, 20110254203A1[P]. 2011-10-20.

[15]Minoru OJIRO. Method of manufacturing pipe with branch:US, 8709333B2[P]. 2014-04-29.

[16]Tomoyoshi Sakamoto, Minoru OJIRO, Hiroki KATAGIRI. Method of manufacturing hollow body:US ,20120068388[P]. 2012-03-22.

[17]KATAGIRI HIROKI.Method for molding hollow body with floating core:JP,H10180812 –A [P].1998-07-07.

[18]Metri Ivan De, Pauli Ferdinand Di, Fabrizio Chini. Moulding method and device for producing a hollow moulded object:EP ,2511065A1 [P].2012-10-17.

[19]Helmut Eckardt. Method and apparatus for the injection molding of a molded part: US,8268210[P].2012.

[20]Egon Resch, Devid Mosca. Molding device and method for producing hollow objects with a projectile formed during the molding process:EP ,2145747A1[P]. 2010-01-20.

[21]Alexander Schmitt, Michael Jourez, Ernst Pfannkuchen. Method and device for producing a plastic part:EP ,2226176A1[P]. 2010-09-08

[22]Moritz Gründler, Tilo Hildebrand. Method for producing polymeric hollow portion, involves forming cavity with respect to displacement of fluent molding material: DE ,102011100132 [P]. 2012-10-31.

[23]Hata, Y., Sakamoto, T., “the forming process of a two-layer hollow cast,” http://en.astamuse.com/published/JP/No/2009148969#, July 9th, 2009.

流体驱动弹头辅助注塑技术的演变

Evolution of Fluid-Projectile-Assisted Injection Molding Technology

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

本文评价