• Title/Summary/Keyword: 핫 프레스 포밍

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Determination of Heat Treatment Condition for Hot Press Formed Automotive Flex Plate (자동차용 플렉스 플레이트 제조를 위한 핫프레스 포밍 열처리 조건 최적화)

  • Park, I.H.;Lee, M.G.;Kim, S.J.;Jeong, W.C.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.10a
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    • pp.186-189
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    • 2008
  • The flex plate, an automotive part which mounts to the automotive engine to transfer torque to transmission, should have considerable hardness and shape accuracy. As a way to produce the flex plate, the hot press forming technology which takes advantages of high formability at elevated temperature, enhanced strength and shape stability was introduced. Therefore, as one of major process parameters the heat treatment condition should be determined to obtain appropriate hardness in the range of manufacturer's specifications. In this study, two heat treatments, austempering and quenching and tempering (QT), were compared as feasible conditions fur the hot press forming of high-carbon tool steel and the hardness and toughness after heat treatments were evaluated. The study showed that both heat treatments resulted in improved hardness but only quenching and tempering showed practicable range of toughness.

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Prediction of Residual Stresses in the Boron Steel Sheet after Hot Press Forming using Material Properties Modeler and Abaqus (재료 물성 모델러와 Abaqus를 활용한 핫 프레스 포밍 후의 보론 강판내 잔류음력의 예측)

  • Ji, M.W.;Suh, Y.S.;Kim, Y.S.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.05a
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    • pp.493-496
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    • 2008
  • The residual stress generated in the boron steel blank formed via hot press forming process was predicted by JMatPro, a material property modeler, and Abaqus. The numerical predictions were compared by the experimental measurements obtained by the instrumented indentation. Both the predicted and measured principal stresses monitored at the outer surface of central bending position were qualitatively in good agreement. It was concluded that the residual stresses generated from hot forming process is not negligible as it has been generally assumed, although the spring back deformation is quite small. This should be specially considered from the part design stage since the tensile nature of the residual stress exhibited on the surface may lead to the stress corrosion cracking.

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Application and Verification of Virtual Manufacturing to Hot Press Forming Process with Boron Steel (보론강 핫 프레스 포밍 공정에 대한 가상생산 응용 및 검증)

  • Suh, Yeong-Sung;Ji, Min-Wook;Lee, Kyung-Hoon;Kim, Young-Suk
    • Transactions of the Korean Society of Automotive Engineers
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    • v.18 no.2
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    • pp.61-66
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    • 2010
  • A virtual manufacturing system that is composed of JMatPro, a material modeler and $DEFORM^{TM}$-HT, a finite element package is applied to the hot press forming process: high temperature material properties for each phase such as flow stress, elastic modulus, Poisson's ratio, thermal expansion coefficient, in addition to TTT curve are predicted by JMatPro and taken into $DEFORM^{TM}$-HT to predict the material behavior considering phase transformation and heat transfer simultaneously. In order to verify the accuracy of computation, the residual stress and the springback were compared with the experimental measurements. Both the predicted and measured principal residual stresses and amount of springback were in good agreement. It was also found that the residual stresses generated from hot press forming are not negligible as it has been generally assumed, although the springback deformation is quite small.

Tough High Thermal-Conductivity Tool Steel for Hot Press Forming (핫 프레스 포밍을 위한 고열전도성 금형에 대한 연구)

  • Kum, Jongwon;Park, Okjo;Hong, Seokmoo
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.15 no.3
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    • pp.130-134
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    • 2016
  • Due to the need for advanced technologies in the automotive industry, the demand for lighter and safer vehicles has increased. Even though various nonferrous metals, like Aluminum, Magnesium and also Carbon Fiber Reinforced Plastic (CFRP), have been implemented in the automotive industry, a lot of technical research and development is still focused on ferrous metals. In particular, the market volume of High Strength Steel (HSS) parts and Ultra High Strength Steel (UHSS) by hot press forming parts has expanded significantly in all countries' automotive industries. A new tool steel, High Thermal-Conductivity Tool Steel (HTCS), for stamping punches and dies has been developed and introduced by Rovalma Company (Spain), and it is able to support better productivity and quality during hot press forming. The HTCS punches and dies could help to reduce cycle time due to their high thermal conductivity, one of the major factors in hot press forming operation. In this study, test dies were manufactured in order to verify the high thermal conductivity of HTCS material compared to SKD6. In addition, thermal deformation was inspected after the heating and cooling process of hot press forming. After heating and cooling, the test dies were measured by a 3D scanner and compared with the original geometry. The results showed that the thermal deformation and distortion were very small even though the cooling time was reduced by 2 seconds.

FE Analysis of Hot Press Forming Process considering the Phase Transformation (상변태를 고려한 핫프레스포밍 공정의 유한요소해석)

  • Kang, Gyeong-Pil;Lee, Kyung-Hoon
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.10a
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    • pp.226-229
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    • 2008
  • Hot press forming is an advanced forming technology fur manufacturing of complex and crash-resistant automotive parts using ultra high strength steels. The 3-dimensional FE analysis of hot press forming process, in which process the deformation, heat transfer and phase transformation behavior are fully coupled, is carried out. The vast amount of material properties for the FE analysis is obtained from material properties calculation software which is based on thermodynamic calculations. The overall methodology for the FE analysis of HPF process and the analysis results are discussed here.

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Design of cooling channel in hot press forming process of Boron Steel (보론강 고온 성형 공정의 냉각 채널 설계)

  • Hong, S.M.;Ryu, S.Y.;Park, J.K.;Yoon, S.J.;Kim, K.J.;Kim, H.Y.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2009.10a
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    • pp.367-370
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    • 2009
  • Recently, ultra high strength products can be manufactured by the hot press forming process of Boron steel in automotive and electronics industries. In order to get high strength, the hot press forming should be accompanied by quenching process inducing phase transformation. In the study, the heat conductive die and the cooling channel were designed by the numerical simulation and the effect of three different parameters were determined to improve cooling characteristics.

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Study on Heat Transfer Characteristic in Hot Press Forming Process (핫프레스 포밍 공정에서의 열전달 특성에 대한 연구)

  • Lee, S.Y.;Lee, K.;Lim, Y.H.;Jeong, W.C.
    • Transactions of Materials Processing
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    • v.22 no.2
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    • pp.101-107
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    • 2013
  • The heat transfer characteristics between die and sheet and die and coolant are important parameters in hot press forming process. The determination of the quenching time that guarantees full martensitic transformation requires proper understanding of these heat transfer characteristics. The contact area changes drastically during the quenching process due to volume changes of both die and sheet by temperature drop as well as phase transformation. Several types of modeling techniques are tested in order to select the most suitable. The effect of quenching time as well as die heat conductivity on martensitic transformation is investigated and predictions are compared to experimental results.

Evaluation of Cooling Capability of Hot Press Forming Die with Thermal CFD Simulation (열유동 해석을 통한 핫프레스 포밍 금형의 냉각 성능 평가)

  • Lee, K.;Lee, J.J.;Suh, C.H.
    • Transactions of Materials Processing
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    • v.25 no.4
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    • pp.242-247
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    • 2016
  • CFD simulation with FlowVision® is used to evaluate the capability of cooling channel in hot press forming dies. Two different types of cooling channels, dry drilled and pocket types are considered for comparison. Two different approaches for simulating cooling channel are considered. One is single-phase velocity calculation for coolant only and the other is multiphase thermal and velocity calculation for die, blank and coolant all together. Both approaches show better cooling performance in pocket type cooling channel. Also both approaches show their own effectiveness in designing cooling channel of hot press forming dies.

Study on the design of quenching fixture in hot press forming process (핫프레스포밍 공정의 냉각치구 설계에 관한 연구)

  • Lee, K.;Kwak, E.J.;Kim, H.Y.;Lee, Gi-Dong;Park, Jong-Kyu;Suh, Chang-Hee
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2009.05a
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    • pp.337-340
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    • 2009
  • In hot press forming process, the desired high strength can be obtained through quenching process after cold forming of product. The quenching process, however, accompanies undesired distortion due to the volume change during the phase transformation as well as by thermal contraction. In this study the numerical simulation with DEFORM3D-Microstructure is used to predict the deformed shape during the quenching for the quenching fixture design.

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Mechanical characteristics and bead geometry according to laser welding parameters for tailor-welded-branks of hot press forming steel (레이저용접을 이용한 핫프레스포밍강의 맞춤식 재단 용접강판에서 용접공정변수에 따른 기계적 특성 및 비드형상)

  • Kang, Minjung;Kim, Cheolhee;Seo, Jong Dock;Lim, Chang Young
    • Laser Solutions
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    • v.18 no.2
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    • pp.5-10
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    • 2015
  • A tailor welded blank (TWB) is a welded blank comprised of two or more sheets with different properties - thickness, strengths or formabilities. TWBs are applied to the body panels to reduce weight and cost of the part. In this research, ultra high strength steel and high ductility steel were joined and laser tailor welded blanks were implemented. Yb:YAG laser welding tests were conducted with various welding conditions, and mechanical and geometrical characteristics of weldments were evaluated.