Three‐dimensional numerical analysis of injection‐compression molding process

Ho, Jae-Yun; Park, Jang Min; Kang, Tae Gon; Park, Seong Jin

doi:10.1002/pen.22157

Cited by 11 publications

(8 citation statements)

References 15 publications

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“…In these conditions, the polymer melt front formed a thick solid layer, so-called “skin layer” on the mold wall, limiting the melt flow more than what the compression could favor. This theory was supported by Ho et al [20] observing an injection pressure and shear rate reduction with increased compression strokes. An additional result on compression parameters was given by Ito et al [21], who found that the compression starting point and the compression gap are relevant factors affecting both optical performance and internal stresses.…”

Section: Introductionsupporting

confidence: 52%

Manufacturing Signatures of Injection Molding and Injection Compression Molding for Micro-Structured Polymer Fresnel Lens Production

et al. 2018

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Injection compression molding (ICM) provides enhanced optical performances of molded polymer optics in terms of birefringence and transmission of light compared to Injection molding (IM). Nevertheless, ICM requires case-dedicated process optimization to ensure that the required high accuracy geometrical replication is achieved, particularly especially in the case of surface micro-features. In this study, two factorial designs of experiments (DOE) were carried out to investigate the replication capability of IM and ICM on a micro structured Fresnel lens. A laser scanning confocal microscope was employed for the quality control of the optical components. Thus, a detailed uncertainty budget was established for the dimensional measurements of the replicated Fresnel lenses, considering specifically peak-to-valley (PV) step height and the pitch of the grooves. Additional monitoring of injection pressure allowed for the definition of a manufacturing signature, namely, the process fingerprint for the evaluation of the replication fidelity under different process conditions. Moreover, considerations on the warpage of parts were related to a manufacturing signature of the molding processes. At last, the global part mass average and standard deviation were measured to correlate local geometrical replication performances with global part quality trends.

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Section: Introductionsupporting

confidence: 52%

Manufacturing Signatures of Injection Molding and Injection Compression Molding for Micro-Structured Polymer Fresnel Lens Production

et al. 2018

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“…Up to now, apart from a few analytically solvable cases, there are still no exact solutions to problems of this kind. The numerical methods [2 -5] have recently been widely adopted in the solution of multidimensional phase transformation problems, among which are the enthalpy method [6,7] , the boundary immobilization method [8,9] , the variable space-grid method [6,10] , the finite element method [11,12] , the method of fundamental solutions [13,14] , and the nodal integral method [15,16] .…”

Section: Introductionmentioning

confidence: 99%

Study on the solidification kinetics of high-density polyethylene during thin-walled injection molding process

Deng

Yang

Miao

et al. 2012

Journal of Polymer Engineering

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In this work, the effect of the initial and secondary temperature differences on the solidification behaviors of high-density polyethylene (HDPE) during the thin-walled injection molding (TWIM) was intensively investigated. Simulated temperature profiles using the enthalpy transformation methodology were compared with an in situ temperature measurement, and reasonable agreement was achieved between calculations and measurements. Two-dimensional wide-angle X-ray diffraction characterization shows that the formation of oriented crystal structures was considerably affected by the thermal gradient within the injection-molded article. The present study can be practically significant to the optimization of the cooling parameters during the TWIM of crystalline polymers as well as to the further study on the relationship among " processing-structure-property " of polymeric materials.

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“…Then the clamping process is conducted during or after injection. This method is used to produce thin‐walled parts such as compact disks and optical lenses produced from a transparent amorphous polymer because of transcriptional improvement, uniform pressure distribution, reduction of the residual stresses, and reduction of warpage . The method by which polymer melt is injected in the state of the suitably opened cavity is called injection press molding (IPM) .…”

Section: Introductionmentioning

confidence: 99%

Optical properties of high‐density polyethylene in injection press molding for IR system lenses

Kaneda

Takahashi

Takiguchi³

et al. 2017

Polymer Engineering & Sci

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An experimental investigation of injection press molding (IPM) was conducted to assess high infrared radiation (IR) transmittance with an opaque state (low‐visibility ray (VR) transmittance) necessary for IR system lenses as a target high‐density polyethylene (HDPE) IR transmission material. The changed conditions were the cavity open distance and delay time considering the polymer melt flowability. Other molding conditions were held constant. Mold surface roughnesses of two kinds were used. Data for IR and VR transmittance were evaluated using measurements or observation results obtained for surface roughness, thickness, differential scanning calorimetry (DSC), crystallinity, and the internal structure. Results show that the surface roughness and thickness of molded parts did not influence IR or VR transmittance. For thin skin layers with low orientation of molecular chains, the IR transmittance was higher for longer delay times. For low molecular chain orientation in the shear–core layer, the VR transmittance was also low. The molecular chain orientation differed depending on IPM conditions. Setting a longer delay time produced a uniform distribution of the molded part thickness. Furthermore, thickness became a constant value when a mold with high surface roughness was used. POLYM. ENG. SCI., 2017. © 2017 Society of Plastics Engineers

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Three‐dimensional numerical analysis of injection‐compression molding process

Cited by 11 publications

References 15 publications

Manufacturing Signatures of Injection Molding and Injection Compression Molding for Micro-Structured Polymer Fresnel Lens Production

Manufacturing Signatures of Injection Molding and Injection Compression Molding for Micro-Structured Polymer Fresnel Lens Production

Study on the solidification kinetics of high-density polyethylene during thin-walled injection molding process

Optical properties of high‐density polyethylene in injection press molding for IR system lenses

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