Effects of injection-molding conditions on the gloss and color of pigmented polypropylene

Pisciotti, Francesco; Boldizar, Antal; Rigdahl, Mikael; Ariño, Ingrid

doi:10.1002/pen.20358

Cited by 31 publications

(34 citation statements)

References 16 publications

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“…For CMTC of CIM, the cavity surface temperature during filling process should be much lower than the glass transition temperature or melt temperature of the plastic resin to ensure a short moulding cycle and competitive production efficiency. The low cavity surface temperature makes the polymer melt freeze prematurely and consequently a frozen layer will formed during filling process at the interface between the hot polymer melt and the cold mould cavity, which leads to a series of defects of the final moulded parts, such as flow mark [11,12], weld mark [13,14], swirl mark [15][16][17], roughness [18,19], low gloss [20][21][22], and low replication accuracy [23,24]. For DMTC of RHCM, the cavity surface temperature during filling process has much smaller negative influence on the moulding cycle because the mould can be cooled as soon as possible after filling.…”

Section: Introductionmentioning

confidence: 99%

Effects of cavity surface temperature on reinforced plastic part surface appearance in rapid heat cycle moulding

2013

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Section: Introductionmentioning

confidence: 99%

Effects of cavity surface temperature on reinforced plastic part surface appearance in rapid heat cycle moulding

2013

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“…A plastic material is melted in the injection-molding machine and then injected into the mold, where it cools and solidifies into the final part. The most commonly used thermoplastics are polystyrene, polypropylene, polyvinyl chloride, and acrylonitrile-butadiene-styrene (ABS) [6][7][8][9]. ABS resins are among the most versatile thermoplastics in the styrenic polymers.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Incomplete Filling Defect for Injection-Molded Air Cleaner Cover Using Moldflow Simulation

Shin

Park

2013

Journal of Polymers

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A large-sized cover part for air cleaner was injection molded with ABS resin, and its incomplete filling defect was analyzed using commercial Moldflow software. To investigate the effect of processing temperature on incomplete filling defect, tensile properties, weight loss, and phase separation behavior of ABS resin were evaluated. The tensile properties of dumbbell samples were not changed up to 250 ∘ C and decreased significantly thereafter. SEM micrographs indicated no significant changes in the status of polybutadiene rubber phase below 250 ∘ C. These different test results indicated that ABS resin little affected the thermal decomposition in processing temperature range. The Moldflow simulation was performed using measured thickness of molded cover and actual mold design with the defects. As expected, the cover part showed unbalanced filling and incomplete sections. To improve these defects, two possible cases of hot runner system have been simulated. When applying modified 5-gate system, the maximum injection pressure was decreased approximately 5.5% more than that of actual gate system. In case of 6-gate system, the maximum injection pressure reduced by 23%, and the injection pressure required to fill is well within the range of the molding equipment. The maximum clamping force of 6-gate system was also significantly reduced than that of actual and 5-gate system.

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“…Mold temperature is one of the most import parameters for injection molding because it has a direct influence on the part quality and molding cycle time. Theoretical and experimental studies in literatures1–8 have shown that a high mold temperature not only has a great positive effect on the surface appearance, strength, size, and shape accuracy of the molded part, but also decreases the required injection pressure and clamping force of the molding machine. But the corresponding long cooling time resulting from the high mold temperature decreases the productivity and hence increases the costs.…”

Section: Introductionmentioning

confidence: 99%

Research and application of a new rapid heat cycle molding with electric heating and coolant cooling to improve the surface quality of large LCD TV panels

Zhao

Wang

Guan

et al. 2011

Polymers for Advanced Techs

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The usage of rapid heat cycle molding (RHCM) has gained increasing attention in overcoming the limits of conventional injection molding (CIM) and improving the surface quality and mechanical properties of molded plastic products. In RHCM, the vario‐thermal mold temperature control system is the key technique because it directly affects the molding cycle time and the final part quality. In this study, a new RHCM technology with electric heating and coolant cooling was studied in detail. Two different RHCM mold structures for a large LCD TV panel were proposed and designed. The numerical simulation method was used to analyze the thermal response of the mold cavity surface at the heating stage and the thermal response of the resin melt at the cooling stage. The heating/cooling efficiency of the proposed electric heating RHCM system was evaluated. The thermal expansion analysis of mold cavity was implemented and the fixation of the cavity in molds was also optimized. The results showed that the electric‐heating mold with a separate cooling plate can efficiently enhance the heating efficiency. The thermal expansion of the cavity surface can be reduced by increasing the alleviating‐gap between the cavity and the cavity‐retainer plate. Then, the service lifetime of the electric‐heating mold can be improved. A RHCM production line with electric heating for the large LCD TV panel was constructed. Both the simulation and test production results indicate that the proposed electric heating RHCM technique can realize high‐temperature injection molding without increasing the molding cycle time. The surface appearance of the LCD TV panels was dramatically improved and the surface marks that usually occur in CIM process were eliminated completely. Copyright © 2009 John Wiley & Sons, Ltd.

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Effects of injection-molding conditions on the gloss and color of pigmented polypropylene

Cited by 31 publications

References 16 publications

Effects of cavity surface temperature on reinforced plastic part surface appearance in rapid heat cycle moulding

Effects of cavity surface temperature on reinforced plastic part surface appearance in rapid heat cycle moulding

Analysis of Incomplete Filling Defect for Injection-Molded Air Cleaner Cover Using Moldflow Simulation

Research and application of a new rapid heat cycle molding with electric heating and coolant cooling to improve the surface quality of large LCD TV panels

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