• Title/Summary/Keyword: Mold Analysis

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Development of 2 Level × 4 Cavity Stack Mold for Plastic Container (플라스틱 용기 성형을 위한 스택금형 제작에 관한 연구)

  • Jung, Woo-Chul;Heo, Young-Moo;Shin, Kwang-Ho;Yoon, Gil-Sang
    • Design & Manufacturing
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    • v.1 no.1
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    • pp.33-37
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    • 2007
  • In recent, the demand of high-productivity injection mold increases because of the growth of international packaging market. The increase of productivity leads to the large-sized injection molding machine and peripheral devices. For solving this problem, the stack mold which is based on the existing machine and device is studied in advanced countries actively. In this study, as the preliminary research of stack mold development, the stack mold which has 2 Level ${\times}4$ Cavity is designed and manufactured. Besides, the motion and structural analysis are executed to verify the stability of developed stack mold.

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Shoemoulds Runner Shape Optimization using MoldFlow (MoldFlow를 이용한 신발 사출금형 러너부 형상 최적화)

  • 류미라;서영백;문병주;박흥식
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.1483-1486
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    • 2003
  • Injection mold is a manufacturing process used to produce the various parts of complicated shape at a low cost. Many factors such as, section shape, resin and mold temperature, filling time, etc, affect on the quality of injection part during injection molding process. The precent study, was carried out the shrinkage analysis of shoes injection mold to optimize runner shape based on filling and packing pressure with MoldFlow. Taguchi design and analysis of variance are used to optimize injection mold design.

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An Analysis of stress concentration and crack in injection mold by cavity pressure (사출금형에서 내압에 의한 응력집중 및 크랙 분석)

  • Choi, Sung-Hyun;Hang, Su-Jin;Choi, Sung-Ju;Lyu, Min-Young
    • 한국금형공학회:학술대회논문집
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    • 2008.06a
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    • pp.159-162
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    • 2008
  • High pressure is involved during injection molding operation specially packing phase. Cracks in the mold are often occurred by high cavity pressure. In this study, structural analysis of mold has been performed using commercial softwares, Abaqus and Ansys, to investigate cause of crack in the injection mold. Structural analysis contains four cases: stress distribution according to the cavity pressure, stress concentration according to the boundary conditions, stress concentration for inter-locking design of mold, and stress concentration for distributed cavity pressure. Through this study it was observed that the locations of stress concentrations were coincident with locations of crack. Robust mold design is being required to withstand high cavity pressure.

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Fabrication of large-capacity injection mold with the insert core for molding cap (인서트 코어 타입 Cap 성형용 대용량 금형 제작에 관한 연구)

  • Jung, Woo-Chul;Heo, Young-Moo;Shin, Gwang-Ho;Yoon, Gil-Sang;Lee, Jeong-Won
    • Design & Manufacturing
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    • v.2 no.3
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    • pp.16-21
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    • 2008
  • In recent, the demands of household cases and disposable products is increased significantly because a living standard of newly-emerging nations was risen. Therefore, multi-cavity mold and stack mold for the realization of high-productivity have been researched in forefront nations. In this paper, CAE analysis for minimizing the mold core deformation was performed. Finally, 64 cavities injection mold for molding cap which has the insert-type core was fabricated according to the result of CAE analysis.

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A multi-field CAE analysis for die turning injection application of reservoir fluid tank (리저버 탱크의 Die Turning Injection 적용을 위한 Multi-field CAE 해석)

  • Lee, Sung-Hee
    • Design & Manufacturing
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    • v.15 no.1
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    • pp.66-71
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    • 2021
  • In this study, die turning injection(DTI) mold design for manufacturing reservoir fluid tanks used for cooling in-vehicle batteries, inverters, and motors was conducted based on multi-field CAE. Part design, performance evaluation, and mold design of the reservoir fluid tank was performed. The frequency response characteristics through modal and harmonic response analysis to satisfy the automotive performance test items for the designed part were examined. Analysis of re-melting characteristics and structural analysis of the driving part for designing the rotating die of the DTI mold were performed. Part design was possible when the natural frequency performance value of 32Hz or higher was satisfied through finite element analysis, and the temperature distribution and deformation characteristics of the part after injection molding were found through the first injection molding analysis. In addition, it can be seen that the temperature change of the primary part greatly influences the re-melting characteristics during the secondary injection. The minimum force for driving the turning die of the designed mold was calculated through structural analysis. Hydraulic system design was possible. Finally, a precise and efficient DTI mold design for the reservoir fluid tank was possible through presented multi-field CAE process.

Contact Element Generation Method for Casting Analysis by using Projection Method (Projection Method에 의한 주조 해석용 접촉 요소망 생성 기법)

  • Nam, Jeong-Ho;Kwak, Si-Young
    • Journal of Korea Foundry Society
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    • v.40 no.6
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    • pp.146-150
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    • 2020
  • In general, hot metal castings contract and molds expand during the cooling step of a casting process. Therefore, it is important to consider both the casting and mold at the same time in a casting process analysis. For a more accurate analysis that includes the contact characteristics, matching each node of the casting and mold in the contact area is recommended. However, it is very difficult to match the nodes of the casting and the mold when generating elements due to the geometric problem of CAD model data. The present study proposes a mesh generation technique that considers mechanical contact between the casting and the mold in a casting analysis (finite element analysis). The technique focuses on the fact that the mold surrounds the casting. After generating the 3D elements for the casting, the surface elements of the casting in contact with the mold are projected inside the mold to create contact elements that coincide with the contact surface of the casting. It was confirmed that high-quality contact element information and a 3D element net can be automatically generated by the method proposed in this study.

Investigation into Heat Transfer Characteristics of an Injection Mold by Considering Thermal Contact Resistance (열접촉 저항을 고려한 사출금형의 온도분포특성 고찰)

  • Kim, Kyung-Min;Lee, Ki-Yeon;Sohn, Dong-Hwi;Park, Keun
    • Transactions of Materials Processing
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    • v.20 no.1
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    • pp.29-35
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    • 2011
  • In the design of the injection molding process, various parameters including mold design parameters and molding conditions should be investigated to improve part quality. The mold temperature is one of important processing parameters that affect the flow characteristics, surface appearance, part deformation, mechanical properties, etc. Numerical analyses have been used to predict the temperature distribution of the mold under the given cooling or heating conditions. However, conventional analyses have been performed by assuming that the mold material is a single solid even though a number of plates are assembled to construct an injection mold. In the present study, a numerical approach considering the thermal contact resistance is proposed to provide more reliable prediction of the mold temperature distribution by reflecting the heat-resistance between assembled mold plates.

Development of rapid mold heating & cooling technology to remove weldline on surface appearance in telephone case (전화기 케이스 외관의 Weldline 제거를 위한 금형 급속 가열-냉각 기술 개발)

  • Cha, B.S.;Park, H.P.;Lee, S.Y.;Kim, O.R.;Lee, S.W.;Rhee, B.O.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.10a
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    • pp.439-443
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    • 2008
  • Painting process or coating with acrylic film may improve the surface defects of injection molded parts deteriorated by weldlines. flow marks. and etc. However such processes increase the production costs and increase environmental problems. Recently various types of rapid mold heating & cooling technology have been developed in order to improve surface quality of products. In this study. the heating & cooling performance of a telephone case mold is investigated by heat transfer analysis, in which the rapid mold heating & reeling technology is applied. The surface temperature of the mold was measured using thermal image camera and compared with analysis results. The influence of the rapid mold heating & cooling technology on weldline appearance and cycle time increase was also examined.

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A structural analysis of deep depth injection mold to investigate the cause of crack (깊이가 깊은 사출금형의 크랙 원인 파악을 위한 강도해석)

  • Choi, S.H.;Lyu, M.Y.;Kim, D.W.;Kim, S.Y.;Shin, K.S.;Kim, K.Y.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.05a
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    • pp.297-300
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    • 2008
  • High pressure is involved during injection molding operation specially packing phase. Cracks in the mold are often occurred by high cavity pressure. In this study, structural analysis of mold has been performed using commercial softwares, Abaqus and Ansys, to investigate cause of crack in the injection mold. Structural analysis contains four cases: stress distribution according to the cavity pressure, stress concentration according to the boundary conditions, stress concentration for inter-locking design of mold, and stress concentration for distributed cavity pressure. Through this study it was observed that the locations of stress concentrations were coincident with locations of crack. Robust mold design is being required to withstand high cavity pressure.

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Three-Dimensional Finite Element Analysis of the Induction Heating Procedure of an Injection Mold (고주파유도 급속 금형가열 과정의 3차원 유한요소해석)

  • Sohn, Dong-Hwi;Seo, Young-Soo;Park, Keun
    • Transactions of Materials Processing
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    • v.19 no.3
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    • pp.152-159
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    • 2010
  • Rapid mold heating has been recent issue to enable the injection molding of thin-walled parts or micro/nano structures. High-frequency induction is an efficient way to heat mold surface by electromagnetic induction in a non-contact manner, and has been recently applied to the injection molding due to its capability of rapid heating and cooling of mold surface. The present study covers a three-dimensional finite element analysis to investigate heating efficiency and structural safety of the induction heating process of an injection mold. To simulate the induction heating process, an integrated simulation method is proposed by effectively connecting an electromagnetic field analysis, a transient heat transfer analysis and a thermal stress analysis. The estimated temperature changes are compared with experimental measurements for various types of induction coil, from which heating efficiency according to the coil shape is discussed. The resulting thermal stress distributions of the mold plate for various types of induction coils are also evaluated and discussed in terms of the structural safety.