Experimental investigation on the forming and evolution process of cell structure in gas counter pressure assisted chemical foaming injection molded parts-Reference-Cited by-同舟云学术

Experimental investigation on the forming and evolution process of cell structure in gas counter pressure assisted chemical foaming injection molded parts

Published:2020-08-16 Issue:5 Volume:57 Page:659-674
ISSN:0021-955X
Container-title:Journal of Cellular Plastics
language:en
Short-container-title:Journal of Cellular Plastics

Author:

Li Shuai¹^ORCID,Sun Xuemei¹,Wang Rui¹,Hu Yanyan²,Ma Xiaofei¹,Wang Jiachang³

Affiliation:

1. School of Mechanical &Vehicle Engineering, Linyi University, Linyi, PR China

2. Department of Pediatrics, Linyi People’s Hospital, Linyi, PR China

3. Qingdao Hisense Mould Co., Ltd., Qingdao, PR China

Abstract

By using a standard stretch spline as the research object, the influence of gas counter pressure (GCP) technology on melt foaming behavior in chemical foaming injection molding (CFIM) process was investigated. Related experimental line for GCP assisted CFIM foam was designed, and the effect of GCP technology on melt flow front, spline surface quality and internal cell was studied. According to the results obtained from the experiment, two critical GCP pressures and one critical GCP holding time were innovation proposed. Two critical GCP pressures are the critical GCP pressure of melt flow front cell not cracking and the critical GCP pressure of melt not foaming, respectively. The critical GCP holding time is the secondary foaming behavior time. Based on the proposed critical GCP pressures and critical GCP holding time, the influence mechanism of GCP technology on melt foaming action during CFIM process was revealed.

Funder

Key R & D Program of Shandong Province

Publisher

SAGE Publications

Subject

Materials Chemistry,Polymers and Plastics,General Chemistry

Link

http://journals.sagepub.com/doi/pdf/10.1177/0021955X20950224

Reference27 articles.

1. Foam Injection Molding of Polypropylene/Zinc Oxide Nanocomposite with Chemical Foaming Agent: Mechanical Properties and Morphology

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