• Title/Summary/Keyword: Stamping Process

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Trimless Blank Design for Hot Stamping Process of a Sill Side (실 사이드의 열간 프레스 성형을 위한 트림리스 블랭크 설계)

  • Lee, In-Kyu;Lee, Sung-Yun;Lee, Sang-Kon;Ahn, Min-Su
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.15 no.5
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    • pp.93-99
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    • 2016
  • The trimming process is required for satisfying the dimensions of a final product in the hot stamping process. In general, the mechanical trimming or laser trimming process is applied after hot stamping. However, these processes have several disadvantages such as short tool life and low productivity. Therefore, in this study, the optimal trimless blank shape for the hot stamping process of a sill side was designed to remove the trimming process after hot stamping. In order to design the trimless blank, numerical analysis was performed. Firstly, CFD analysis was carried out to predict the cooling temperature and holding time of the hot stamping process. Then, the optimal trimless blank shape was determined through FE analysis. The effectiveness of the designed trimless blank shape was verified through a hot stamping experiment at an actual industrial site.

Design of Stamping Die for Inner Reinforcement Panel of Automotive (자동차 내부 보강판 성형 금형 설계)

  • Ahn, Dong-Gyu;Song, Dong-Han;Noh, Gyung-Bo;Han, Gil-Young
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.8 no.2
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    • pp.60-68
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    • 2009
  • The objective of this paper is to design stamping die of inner reinforcement panel with DL 950 advanced high strength steel as stamping materials through numerical analyses and experiments. The stamping process was designed as bending dominant process consisting of 1 step of notching and 4 steps of bending processes. In order to obtain a proper design of the stamping die, various three-dimensional elasto-plastic finite element analyses were performed using a commercial code AUTOFORM V4.2. Design parameter of stamping die was chosen as the corner radius of the stamping die for each step. From the results of the FE analysis, feasible corner radii of the stamping die, which can minimize the deviation of corner angle of the stamped part from design data, and forming load for each part were estimated. Stamping experiments were carried out using the manufactured stamping die according to the proposed die design. The results of experiments were shown that the stamping die can successfully manufacture the inner reinforcement panel with DL 950 advanced high strength steel as base stamping material.

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Improving Process Stability Using Design of Experiments

  • Ko, Je-Suk
    • Journal of the Korean Data and Information Science Society
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    • v.17 no.2
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    • pp.633-645
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    • 2006
  • The sheet metal stamping process continues to be a challenge to the field of science and engineering. The focus of this paper is to gain a better understanding of the sheet metal stamping process. By using Finite Element analysis and Design of Experiments, we are trying to analyze the stamping variables and determine which ones influence the stamping operations most.

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Review on the Wear behavior of the Hot Stamping Process with Respect to Friction Testing Methods (마찰 방법에 따른 핫스탬핑 마모 거동의 연구 동향)

  • Ji, Min-Ki;Jun, Tea-Sung
    • Tribology and Lubricants
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    • v.36 no.6
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    • pp.350-358
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    • 2020
  • Hot stamping is an effective and suitable process widely used in automotive applications, though critical issues such as the transfer of the coating materials and build-up of these materials on tool surfaces have been encountered. Past researches figured out the resultant wear phenomenon using pin-on-disc and drawing (for example, strip drawing and deep drawing) methods to mimic the process and analyzed the wear behavior with respect to the influencing factors such as surface coating, load, and roughness. Although the pin-on-disc is a conventional and widely-used method, it presented a methodological limitation when simulating the hot stamping process by forming a new blank each time, and hence, a drawing-based friction method has been proposed and developed. Each drawing method applies loads in a different way, resulting in a different wear behavior. Notably, the deep drawing process is most similar to the hot stamping process compared to other drawing methods. In this paper we present a review of the friction testing methods mimicking the hot stamping process and the associated wear behavior. This can be helpful in presenting a step-by-step approach and different perspectives on the wear behavior in the hot stamping process.

Optimization of blank geometry for the stamping process of B-pillar using design of experiments (실험 계획법을 사용한 B-Pillar 성형공정에서 블랭크 형상 최적화)

  • Youn, Hyung-Won;Choi, Yong-seok;Lee, Chang-Whan
    • Design & Manufacturing
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    • v.15 no.2
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    • pp.17-22
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    • 2021
  • The shape of the blank greatly affects the formability and quality of the product after the stamping process. In this study, the geometry of the B-Pillar blank in the stamping process was optimized using design of experiments. The geometry of the blank for the B-pillar was simplified with the two length values and two radius values. The effects of design variables were studied through the Design of experiments. The stamping process of the B-pillar was predicted with the Finite Element Analysis (FEA). The optimized blank geometry was obtained. It results in the reduced maximum equivalent plastic strain. The local necking and the wrinkling did not occurred with the optimized blank geometry.

Simulation-based Multi-stage Tool Design for an Electronic part with Ferritic Stainless Steel Sheet (400계 스테인리스 판재의 가전 부품 적용을 위한 전산해석 기반 다단 금형설계)

  • Park, K.D.;Jang, J.H.;Kim, S.H.;Kim, K.P.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.10a
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    • pp.174-177
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    • 2008
  • This paper replaces an conventional 300-austenitic stainless steel sheet to a 400-ferritic stainless steel for the cost reduction of a pulsator cover of a washing machine. However, ferritic stainless steel has poor formability in comparison with austenitic one. The low formability of ferritic steel results in problems during stamping such as fracture, wrinkling, shape inaccuracy and so on. Design modification of the stamping tool is carried out with the aid of the finite element analysis for multi-stage stamping process. The simulation results show that fracture occurs on top of the product while wrinkles are generated by the excess metal near the wing part. Modification of the initial stamping die is performed to improve metal flow and to eliminate problems during the stamping process. Simulation with the modified design fully demonstrates that safe forming is possible without inferiorities.

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A Study on the Process Optimization by a Beadless Stamping (노비드스탬핑 공법을 이용한 공정최적화에 관한 연구)

  • Kim, S.H.;Shim, H.B.
    • Transactions of Materials Processing
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    • v.21 no.8
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    • pp.485-492
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    • 2012
  • As the shape of stamped part is complicated and as the trend toward light weight continues, the higher level of difficulty is required in making stamping die because of inevitably poor formability. The poor formability can be improved if the material flow during the stamping is carefully controlled. Application of drawbead became commonsense used to retard metal flow of blank into the die cavity at the region where wrinkle is expected. In the study, the concept of beadless stamping process is proposed and the method how to realize the beadless stamping process is presented. The validity of the proposed method is confirmed by the application of the real auto part.

Digital Tryout Technique for the Conventional Stamping Process of Hard-to-Form Parts (난성형부품의 성형공정개발을 위한 디지털트라이아웃)

  • Shim, H.B.
    • Transactions of Materials Processing
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    • v.22 no.2
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    • pp.93-100
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    • 2013
  • A tryout is a series of process optimization for robust stamping before transfer to the press shop. During tryout, the drawbead control, blank shape determination, binder surface modification, etc., are carried out mainly by a trial-and-error approach. As the level of difficulty of the stamping process increases, the formability becomes more sensitive to the contour of deformed shape, i.e. the blank shape. A digital tryout technique, which simulates a real tryout process, is proposed in this study for challenging stamping processes. Since digital tryout is carried out on a desktop, not in a press shop, a precise control of the deformed contour can be achieved if an optimal blank design technique is utilized. In this work, the proposed digital tryout technique is validated by successful applications to different automotive parts.

Development of the Hybrid Cold-Hot Stamping Process for the 1-Piece Aluminum Door Inner Part (1-Piece 알루미늄 도어 인너 냉간-열간 복합 성형공정 개발)

  • Nam, S.W.;Bae, G.H.
    • Transactions of Materials Processing
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    • v.30 no.5
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    • pp.242-246
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    • 2021
  • Aluminum alloy sheet is being applied to automobiles continuously for the purpose of reducing car body weight. However, due to low formability, there's a limit to application of products with a deep forming depth such as door inner parts. Therefore, the difficult-to-form parts are mainly segmented formed then joined together, which is also disadvantageous as it increases the cost of manufacturing. This study proposes a hybrid cold-hot stamping method for the 1-piece door inner part to reduce cost. To design the stamping process, numerical simulation method is established by using the temperature-dependent mechanical properties of AA6016. The formability according to the hybrid cold-hot stamping method is evaluated using numerical analysis. The suitability of the proposed stamping method is then verified through the stamping tryout.

Studies on the Forming Process for the Bipolar Plate of Fuel Cells

  • Jin, Chul-Kyu;Lee, Jun-Kyoung
    • Journal of the Korean Society of Industry Convergence
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    • v.21 no.4
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    • pp.175-181
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    • 2018
  • Stamping process and rubber pad forming process were performed to manufacture the bipolar plate for fuel cells. For that, a vacuum die casting process and a semi-solid forming process wherein liquid-state materials were used were adopted. After preparing the blank with the stainless steel thin plate having a thickness of 0.1 mm, the bipolar plate channel was formed with the stamping process and rubber pad forming process. The depth of the bipolar plate channel prepared by the stamping method was 0.45 mm and the depth of the bipolar plate channel prepared by the rubber pad forming process was 0.41 mm. Meanwhile, with the vacuum die casting and semi solid forming, the bipolar plate having a channel depth of 0.3 mm, same as the size of the die, could be formed.