AI Article Synopsis
- The study focuses on how processing equipment and parameters affect the properties of long-fiber-reinforced injection-molded thermoplastic composites, particularly around retaining fiber length during the injection molding process.
- Researchers used a specially designed injection molding machine with a three-barrel setup to fabricate long-glass-fiber-reinforced polypropylene while investigating how factors like back pressure, screw speed, and melt temperature influence fiber length and orientation.
- Results indicated that higher screw speeds and back pressures lead to shorter fiber lengths, but with the right settings, fibers can be maintained over 10 mm, improve cross direction by 15%, reduce air trap volume, and achieve higher tensile strength in single-edge-gate molding compared
Article Abstract
Processing equipment and parameters will highly influence the properties of long-fiber-reinforced injection-molded thermoplastic composites, leading to different fiber lengths and orientations. Thus, maintaining fiber length during the injection molding process is always a big challenge for engineers. This study uses long-glass-fiber-reinforced polypropylene with 25 mm fiber length and a special-built novel injection molding machine with a three-barrel injection unit, including a plasticizing screw, an injection plunger, and a packing plunger, to fabricate injection molding parts while retaining long fiber length. This study also discusses the influence of process parameters, such as back pressure, screw speed, melt temperature, and different flow paths, on the properties of long-glass-fiber-reinforced composites. The experiment results show that a higher screw speed and back pressure will reduce the fiber length in the injection-molded parts. However, using appropriate parameter settings can maintain the fiber length to more than 10 mm. It was found that by increasing the back pressure, the cross direction of the fiber orientation can be increased by up to 15% and the air trap volume fraction can be decreased by up to 86%. Setting appropriate back pressure under a low screw speed will increase the tensile strength. Finally, it was found that the single-edge-gate path results in a higher tensile strength than that of the single-sprue-gate path due to the retainment of longer fiber length in the injection-molded part.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8949595 | PMC |
| http://dx.doi.org/10.3390/polym14061251 | DOI Listing |
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