Wei-Liang Liaw scite author profile

Wei-Liang Liaw

2Publications

5Citation Statements Received

10Citation Statements Given

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Chung Yuan Christian University

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Investigation of mold plate separation in thin‐wall injection molding

Chen

Liaw

et al. 2003

Adv Polym Technol

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Precision injection molding of thin-wall parts has become an important concern in 3C (computer, communication, and consumer electronics) plastics industry. Previous studies in precision injection molding control focused on the injection screw, the hydraulic system control and the associated operations. In the present study, the influence of relevant parameters, including injection speed, melt temperature, mold temperature, filling-packing switchover, and packing pressure, on the mold plate separation under different clamping pressures was investigated as part of precision molding control. A two-cavity tensile test specimen mold equipped with four linear variable displacement transducers (LVDTs) on mold exteriors and across the parting surface was used for experiments. A PC-based monitoring system was also built to detect the mold separation signals. Mold separation can also be identified from part weight variation and exhibits relevant correspondence with part weight. It was found that because of the high injection speed required for thin-wall molding, mold separation is not negligible. In all situations, mold separation decreases with increasing clamping pressure. As melt temperature and mold temperature increase, mold separation increases, resulting in an increase of part weight. Similarly, when packing pressure and injection speed increase, mold separation also increases. Earlier switchover from filling to packing can decrease mold separation as well as part weight. Among all parameters, packing pressure

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Hot embossing of micro-featured devices

Chen

Lin

Chien³

et al.

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Wei-Liang Liaw

Investigation of mold plate separation in thin‐wall injection molding

Hot embossing of micro-featured devices

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