4.7 Article

Study on the Flow, Foaming Characteristics and Structural Strength of Polypropylene Structural Foam Injection Molding by Innovative Nitrogen and Molten Plastic Mixing Mechanism

Journal

POLYMERS
Volume 15, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/polym15092116

Keywords

structural foam injection molding technology; foaming process-sensing system; polypropylene; melt rheology; viscosity index

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This investigation developed a structural foam injection molding technology using gas supply equipment connected to the unique plasticizing mechanism of the injection machine. The study examined its impact on the melt rheology quality and foam structures of specimens. The experiment used polypropylene (PP) as the forming material and nitrogen (N-2) as the gas for mixing and forming foaming characteristics. Through the connection of the nitrogen supply equipment to the unique plasticizing mechanism, gas and molten plastic can be mixed during the screw plasticizing stage, achieving a foaming effect during the melt-filling process. The study found that an increase in N-2 fill content increased melt fluidity, and the foaming characteristic depended on the gas thermodynamic instability and pressure release.
Plastic foam molding methods include thermoforming, extrusion and injection molding. Injection foam molding is a one-time molding method with high production efficiency and good product quality. It is suitable for foamed plastic products with complex shapes and strict size requirements. It is also the main method for producing structural bubbles. In this investigation, we developed a structural foam injection molding technology using the gas supply equipment connected to the unique plasticizing mechanism of the injection machine and studied its influence on the specimens' melt rheology quality and foam structures. In the experiment, the forming material was polypropylene (PP), and the gas for mixing/forming foaming characteristics was nitrogen (N-2). Additionally, in order to observe the rheological properties of N-2/melt mixing, a melt flow specimen mold cavity was designed and the change in the melt viscosity index was observed using a melt pressure sensing element installed at the nozzle position. With the nitrogen supply equipment connected to a unique plasticizing mechanism, the mixing of gas and molten plastic can be achieved at the screw plasticizing stage, where the foaming effect is realized during the melt-filling process due to the thermodynamic instability of the gas. It was also found that an increase in N-2 fill content increased melt fluidity, and the trend of melt pressure and melt viscosity index showed that the higher the gas content, the lower the trend. The foaming characteristic depends on the gas thermodynamic instability and the pressure release, so it can be seen from the melt fill path that, the greater the pressure near the gate, the lower the foaming amount and the internal structure (SEM) after molding; the farther from the gate, the greater the relative increase in the foaming growth/amount. This phenomenon will be more obvious when the N-2 fill content is increased.

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