Study on the processes and warpage of <scp>double‐injection‐molded</scp> parts containing <scp>PP</scp> recycled materials

Li, Jiquan; Wang, Zhencun; Xie, Jun; Jiang, Shaofei; Peng, Xiang; Lu, Chunfu

doi:10.1002/pen.26649

Polymer Engineering & Sci

2024

DOI: 10.1002/pen.26649

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Study on the processes and warpage of double‐injection‐molded parts containing PP recycled materials

Jiquan Li,

Zhencun Wang,

Jun Xie

et al.

Abstract: Double‐injection molding involves the use of two injection units, A and B, which can combine two different plastics into one part in a single injection molding process. Double‐injection molding can promote the recycling of plastic waste as well as improve the performance and dull appearance of plastic products made from recycled materials. However, the warpage of parts is a significant challenge in double‐injection molding. Warpage is significantly affected by the properties of the recycled material and inject… Show more

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In‐mold rheology and automated process control for injection molding of recycled polypropylene

Krantz,

Nieduzak,

Licata

et al. 2024

Polymer Engineering & Sci

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Manufacturing plastic parts with secondary feedstocks has risen to the forefront of importance in recent years. However, the variation in molecular weight and rheology of secondary feedstock can lead to inconsistent part quality. This work evaluates the effectiveness of a novel closed‐loop adaptive process control system that adjusts nozzle pressure in response to in‐mold pressure data. Five different recycled polypropylene blends, with a broad distribution of flow properties, were evaluated to determine the effectiveness of the control system at reducing processing variation. The experimental results show that the process control strategy reduced the variation within the mold, as seen by in‐mold pressure curves and calculated in‐mold viscosity values. Additionally, the parameters that control the automated process adjustments were investigated, showing the importance of optimization. The analysis of the correlation between in‐mold rheology and mechanical properties showed a slight variation in the mechanical properties and parts weight with a coefficient of variation of under 5%. Overall, the results demonstrate the ability of pressure‐controlled molding and automated viscosity adjustment to reduce the variability when molding a secondary feedstock.Highlights Pressure‐controlled injection molding of recycled polypropylene. Automated closed‐loop adaptive process control methodology. Methodology resulted in a reduction in pressure variation during molding. Changes in mechanical properties and in‐mold viscosity were investigated. Results show the potential of pressure‐controlled molding at reducing variation.

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In‐mold rheology and automated process control for injection molding of recycled polypropylene

Krantz,

Nieduzak,

Licata

et al. 2024

Polymer Engineering & Sci

View full text Add to dashboard Cite

show abstract

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Study on the processes and warpage of double‐injection‐molded parts containing PP recycled materials

Cited by 1 publication

References 38 publications

In‐mold rheology and automated process control for injection molding of recycled polypropylene

In‐mold rheology and automated process control for injection molding of recycled polypropylene

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