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    mm. This increased wall thickness design option was studied
    as Design 2 and results are discussed below.
    Figure 6(a) shows flow stresses in the part with the
    increased wall thickness of 0.125 mm. Gate location is the
    same as Gate 3. As Figure 6(a) shows, the flow stresses in
    the NEEDLE HOUSING are much lower than those
    obtained with the current design in Figure 4(b) (Design 1). It
    indicates that the increase of wall thickness considerably
    reduced the fluidic resistance to the advance of flow front in
    the cavity. The percentage increase in material utilization for
    Design 2 (relative to Design 1) is 5 %. This may be
    acceptable in terms of quality and cost for the parts because
    the increase of 5 % does not significantly affect entire
    production cost of the NEEDLE COVER.
    Figure 6(b) represents the flow stresses in the part with a
    melt temperature of 220 o
    C for Design 1 in order to show the
    effect of a decrease in melt temperature on flow stresses. In
    the comparison of the flow stresses shown in Figure 6(b) and
    4(b), the flow stresses shown in Figure 6(b) along the entire
    NEEDLE HOUSING area significantly increase to levels
    above the degradation level of polypropylene.
    The decrease in melt temperature induces higher flow
    stresses because the lower melt temperature accelerated the
    solidification of the polymers at the mold walls. This led to
    degradation of replication of the parts as the temperature was
    decreased. The analysis result in Figure 6(b) notices that
    how a 20 o
    C decrease in melt temperature increase flow
    stresses.
    In case of press limitations for some machinery there is a
    possibility that the molten polymer may not be able to fill a
    multiple cavity production mold at a 0.6 second injection
    time. In order to demonstrate the effects of longer fill times,
    Figure 6(c) shows flow stresses in the part (Design 1) with
    an injection time of 1.2 second. As the figure shows, the
    flow stresses in half of the NEEDLE HOUSING area
    increase above the degradation level of polypropylene. This
    can be explained by the increase of fluidic resistance of the
    molten polymer due to the temperature drop with longer
    injection time along the long and slender area in particular.
    The increase of injection time decreased the injection speed.
    The lower injection speed induced a lower injection pressure
    to push the melt into the cavities. The melt experienced
    longer cooling time and the viscosity of the melt increased
    while the longer injection time is applied.
    From the analyses for Design 1 and 2, the maximum
    injection pressures required to fill the cavity for all four gate
    locations, are shown in Table 1. These injection pressures
    are approximately equal, with gate 1 requiring the lowest
    injection pressure of 26.4 MPa. Table 1 also shows the
    minimum and maximum temperatures of molten polymer at
    the end of the fill cycle for the different gate locations. The
    minimum temperatures, shown in Table 1 for all four gate
    locations, are well above the No-Flow temperature ofpolypropylene (152 o
    C) and should not cause a problem.
    All of the options studied and discussed above should help
    to determine the appropriate combination of processing
    conditions, gate location and material usage for molding a
    high quality part.
    Conclusion
    Cavity filling analysis of an injection-molded needle cover
    was performed. Four different gating options and three
    different designs were studied to the identification of
    appropriate processing conditions, gate location, and material
    usage for the replication of high quality parts.
    Gate 1 leads to very high flow stresses in the NEEDLE
    HOUSING area which may cause the part to bow. Gating
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