Motion control for uniaxial rotational molding |
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Authors: | Jonathan Adams Yan Jin David Barnes Joseph Butterfield Mark Kearnes |
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Affiliation: | 1. School of Mechanical and Aerospace Engineering, Queen's University Belfast, Belfast, UK;2. School of Mathematics and Physics, Queen's University Belfast, Belfast, UK;3. Polymer Processing Research Center, Queen's University Belfast, Belfast, UK |
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Abstract: | Motion control parameters of rotational molding can affect process efficiency and product quality. Different motion control schemes will lead to varied powder flow regimes exhibiting different levels of mixing and temperature uniformity. The change in nature of powder flow during a molding cycle suggests that varying the rotational speed could improve the powder mixing and temperature uniformity, therefore potentially reducing processing time and energy consumption. Experiments completed investigating powder flow under uniaxial rotation show that savings of up to 2.5% of the heating cycle time can be achieved. This validates the hypothesis that altering the rotational speed to maintain the ideal powder flow throughout the heating cycle can be utilized to reduce the time taken for all the polymer powder to adhere to the mold wall. The effect of rotational speed on wall thickness uniformity and impact strength were investigated and discussed. Results show a strong influence of rotational speed (and powder flow) on the wall thickness uniformity of the moldings with wall thickness uniformity deviations of up to 50% found (within the 2–35 RPM speed range tested). |
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Keywords: | manufacturing mechanical properties molding polyolefins thermoplastics |
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