• Title/Summary/Keyword: Die cavity

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Process Planning and Die Design for the Super Hot Forging Product, the Piston Crown Used in Marine Engine (선박엔진용 초대형 열간단조품, 피스톤크라운의 단조공정 및 금형 설계)

  • Hwang, B.C.;Lee, W.H.;Bae, W.B.;Kim, C.
    • Transactions of Materials Processing
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    • v.17 no.8
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    • pp.600-606
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    • 2008
  • In closed-die hot forging, a billet is formed in dies such that the flow of metal from the die cavity is restricted. Some parts can be forged in a single set of dies, whilst others, due to shape complexity and material flow limitations, must be shaped in multi sets of dies. The purpose of a performing operation is to distribute the volume of the parts such that material flow in the finisher dies will be sound. This study focused on the design of preforms, flash thickness and land width by theoretical calculation and finite element analysis, to manufacture the super hot forging product, 70MC type piston crown used in marine engine. The optimal design of preforms by the finite element analysis and the design experiment achieves adequate metal distribution without any defects and guarantees the minimum forming load and fully filling of the cavity of the die for producing the large piston crown. The maximum loads obtained by finite element analysis are compared with the results of experiments. The loads of the analysis have good agreements with those of the experiment. Results obtained using DEFORM-2D enable the designer and manufacturer of super hot forging dies to be more efficient in this field.

Development of High Quality Die Casting Technology with Function to Purify Molten Metal (용탕청정기능을 부여한 고품질 다이캐스팅 기술의 개발)

  • Hatano, Tomoyuki;Takagi, Hiromi;Inagaki, Mitsugi
    • Journal of Korea Foundry Society
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    • v.24 no.1
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    • pp.3-9
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    • 2004
  • Die casting is "a process in which molten metal is injected at high velocity and pressure into a mold(die) cavity". Casting with smooth surfaces, high dimensional precision, complicated shapes, and reduced weight can be obtained using this process. But this process is susceptible to casting defects such as porosities, scattered chilled layers, hard spots, etc. For preventing casting defects, we developed "low-velocity high pressure die casting technology", "squeeze die casting technology", "heat insulating sleeve lubricant technology", and "direct pouring technology". The "direct pouring technology" is useful for producing molten metal without oxide contamination. It consists of a pumping system which supplies pure molten metal to the die casting machine. By using this technology, we have successfully reduced oxide contamination in castings to 1/20 of that of our previous castings.

The Effect of Filling Imbalances on the Molding Quality in the Multy-Cavity Injection Mold (다수캐비티 사출금형에서 충전 불균형이 성형 품질에 미치는 영향)

  • Han, Dong-Yeop;Jeong, Yeong-Deug
    • 한국금형공학회:학술대회논문집
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    • 2008.06a
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    • pp.89-94
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    • 2008
  • The injection molding process is a predominant method for producing plastic parts. In order to maximize productivity and molding quality in a injection mold, it is important that each cavity in a multi-cavity injection mold is identical. This requires that cavity dimensions should be identical and delivery system of melt to each cavity have to be the same. Despite the geometrically balanced layout in multi-cavity injection mold more than 4 cavities, it has been observed that the filling in each cavity results in imbalances. Most of cases, this phenomenon of filling imbalances have a bad effect on dimension accuracy, warpage, molding appearance and strength of molding parts. In this study, experiment were conducted to investigate the effect of filling imbalances on the molding quality(surface gloss, shrinkage, tensile strength) in the multy-cavity injection mold.

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Analysis of Charging Phenomenon of 2-Cavity Die Casting for Automobile's Valve Housing (자동차 VALVE HOUSING용 2-CAVITY 다이캐스팅의 충전 현상 분석)

  • Lee, Jong-Hyung;Yoon, Jong-Cheul;Yoo, Duck-Sang;Lee, Chang-Heon;Ha, Hong-Bae
    • Journal of the Korean Society of Industry Convergence
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    • v.9 no.1
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    • pp.61-66
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    • 2006
  • In perspective of saving natural resource and energy, today's automobiles are in process of regenerating by smaller and lighter. In order to achieve the sufficiency on the consumption of the fuel, new mechanism and new assembly are required. Therefore the expectations on the new materials are very high. Especially, AI materials are widely used to reduce the weight. AI that is used in automobiles is mostly casting material, and according to the innovation of technique is in rapid development. AI Die casting is an important field as today's trend of lightweight on automobiles. One of the parts in steering system, Valve Housing plays a role of reduce the operating effort of drivers. Unfortunately, the Valve Housing which is widely reliable to the most automobiles are not developed at this moment in our automobile industry. Therefore, they are produced by casting method which cost three times or even more expensive in production. If Valve Housing, which is a part of steering system is produced by Gravity Casting, the space that manufacturing equipment will be increased, and more time and workers would be brought into service. For such reason, Die Casting would replace Gravity Casting in order to minimize cost of time, manpower, and working space.

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Study on die plate design and machining using the 3D CAD/CAM system (3D CAD/CAM을 활용한 다이 플레이트의 설계 및 가공)

  • Chio Kye-Kwang
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.7 no.4
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    • pp.550-553
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    • 2006
  • This study used the 3D CAD/CAM system in manufacturing die plates to improve productivity. UG NX 3.0 was used as 3D CAD/CAM software, with the created NC code transmitted to the CNC Milling and Wire Cut Electric Discharge machine. The die plate was then automatically machined.

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Optimization of the Thin-walled Aluminum Die Casting Die Design by Solidification Simulation (응고 시뮬레이션에 의한 박육 알루미늄 다이캐스팅 금형 방안의 최적화)

  • Kim, Young-Chan;Cho, Se-Weon;Cho, Jae-Ik;Jeong, Chang-Yeol;Kang, Chang-Seog
    • Journal of Korea Foundry Society
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    • v.28 no.4
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    • pp.190-194
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    • 2008
  • Thin-walled die casting of aluminum notebook computer housing with less than 1mm thickness was investigated by using computational solidification simulation and actual casting experiment. Three different types of gate design, finger, tangential and split type, were used and the results showed that sound thin-walled die casting was possible with tangential and split type gating design because those gates allowed aluminum melt flowed into the thin-wall cavity uniformly and split type gating system was preferable gating design than tangential type at the point of view of soundness of casting and distortion generated after solidification. Also, solidification simulation agreed well with the actual die-casting and the casting showed no casting defect and distortion.

Die System for Avoiding Thickness Reduction along the Bent Corner in Warm Plate Forging of an Axle Housing (액슬하우징의 온간 후판단조에서 굽힘 변형된 모서리에서 발생하는 두께 감소 방지를 위하여 고안된 금형 시스템)

  • Kim, J.S.;Kim, K.S.;Shim, S.H.;Eom, J.G.;Joun, M.S.
    • Transactions of Materials Processing
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    • v.19 no.8
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    • pp.447-451
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    • 2010
  • In this paper, a useful die system for warm plate forging of a large axle housing of heavy-duty trucks is presented. A die system composed of material flow guide pin as well as upper die and lower die is proposed to reduce the inherent thickness reduction along the bent corner of the product which deteriorates structural strength and fatigue life in its service. The role of the pin assembled in the upper die is to prevent formation of sharp corner in early forming stage and to supply material in the lower die cavity sufficient enough to thicken the bent corner at the final stroke. The mechanism of the die system is given and its effect on corner thickness of the product is revealed by two-dimensional finite element analysis under plain strain assumption. Three-dimensional finite element solutions are also given to verify validity of the two dimensional approach and to show the mechanics of the die system in detail. The die system has been successfully applied to manufacturing the axle housing of heavy-duty trucks.

Reason of Die Fracture in Hot Forging of an Aluminum Fixed Scroll and Its Practical Measures (알루미늄 고정 스크롤 열간 단조공정의 금형 파괴 원인 및 실용적 대책)

  • Kim, Y.S.;Joun, M.S.
    • Transactions of Materials Processing
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    • v.26 no.3
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    • pp.156-161
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    • 2017
  • In this study, the reason of die fracture occurring in hot forging of an aluminum fixed scroll was studied, based on experiments and finite element predictions. The material is assumed to be rigid-viscoplastic, and the die is rigid for the finite element predictions. The stress in the tension at the wrap root is known to cause brittle fracture, and the increase in the tensile stress is owing to the unbalanced filling of material into the die cavities between both sides of the warp. Based on the empirical and numerical achievements, the effects of geometrical parameters of the material on the die fracture were examined to find practical measures for elongated die life. It has been shown from the parametric study that the material with the optimized trapezoidal cross-section, which can be easily made during cutting or the optimized cylindrical billet with its eccentric placement in the die cavity, can considerably reduce the magnitude of the tensile stress around the die corner fractured, indicating that economical manufacturing with reduced number of stages and elongated die life can be realized at once using the optimized practical initial material.

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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