• Title/Summary/Keyword: Pilot Rolling

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BDM Rolling of Middle Sized H-beams from a Bloom (블룸을 이용한 중형 H 형강 BDM 압연 공정 연구)

  • Kim, J.M.;Kim, K.W.;Kim, B.M.
    • Transactions of Materials Processing
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    • v.25 no.1
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    • pp.43-48
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    • 2016
  • H-beams are generally produced by hot rolling composed of a Break Down Mill (BDM) and a Finishing Mill (FM). The goal of the current study was to develop BDM rolling of H300x300 beams from blooms slit from slabs. In order to manufacture H300x300 beams, the caliber design and the pass schedule of BDM rolling were proposed for a bloom instead of a beam blank. The proposed BDM caliber design and pass schedule were tested using FE-simulation and pilot tests. For the major shape dimensions, such as flange width, web height, web thickness, as well as BDM rolling loads, a comparative analysis between the FE-simulation and the pilot rolling tests was conducted. The results of FEM analysis and pilot rolling tests showed good consistency. Moreover, BDM rolling loads were predicted to be in the range of allowable rolling loads. It was concluded that the designed BDM rolling is suitable for implementation within current manufacturing capacity.

Numerical and Experimental Prediction of Asymmetric Deformation Behavior and Its Setup Model in Plate Rolling (후판 압연공정에서 상·하 비대칭 변형거동의 수치적·실험적 예측 및 설정모델에 관한 연구)

  • Byon, Sang-Min;Lee, Young-Seog;Jun, Eon-Chan
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.10 no.2
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    • pp.124-129
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    • 2011
  • The thick plate produced by rolling process is used as the basic members of a ship structure. In this paper, we present a setup model to control the asymmetric factors causing plate bending in the upper or lower direction during rolling. A series of finite element analysis are conducted to predict the relationship between various asymmetric factors and plate bending. The setup model is developed by regressing the relationship to the linear equations with several non-dimensional parameters. The setup model is verified by a pilot rolling test and applied to actual rolling conditions. Results show that the model is substantial to predict the asymmetric deformation in the plate rolling process.

Numerical and Experimental Approach to Investigate Plane-view Shape and Crop Loss in Multistage Plate Rolling (다단 후판압연에서 평면형상 및 실수율 고찰을 위한 수치적, 실험적 연구)

  • Byon, Sang Min
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.37 no.9
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    • pp.1117-1125
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    • 2013
  • A finite element based approach that can be used to investigate the plane-view shape and crop loss of a material during plate rolling is presented. We employed a three-dimensional finite element model to continuously simulate the shape change of the head and tail of a plate as the number of rolling passes increases. The main feature of the proposed model lies in the fact that the multistage rolling can be simulated without a break because the rolling direction of the material is reversibly controlled as the roll gap sequentially decreases. The material constants required in the finite element analysis were experimentally obtained by hot tensile tests. We also performed a pilot hot plate rolling test to verify the usefulness of the proposed finite element model. Results reveal that the computed plane-view shapes as well as crop losses by the proposed finite element model were in good agreement with the measured ones. The crop losses predicted by the proposed model were within 5% of those measured from the pilot hot plate rolling test.

Prediction of Ski-Effect in Plate Rolling Process using Neural Network Algorithm (후판 압연에서 신경망 알고리즘을 이용한 스키 예측)

  • Park, J.S.;Na, D.H.;Jung, S.H.;Hur, S.M.;Choi, H.J.;Lee, Y.S.
    • Transactions of Materials Processing
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    • v.22 no.5
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    • pp.250-257
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    • 2013
  • A series of finite element analyses of the rolling process were performed and a neural network algorithm was employed to calculate the amount of ski-effect for an arbitrary thickness of incoming material in the roll gap. Pilot hot plate rolling tests were also conducted to verify the usefulness of the finite element analyzes conducted in this study. In these experiments, plates with thicknesses varying from 25 to 65 mm were tested. In addition, a number of rolling reductions of up to 31% were examined. Finally, a number of circumferential upper and lower rolls were investigated. Experimental validations demonstrated that the neural network algorithm predicted the proper amount of ski when rolling conditions(material thickness, reduction ratio, roll velocity differential) changed arbitrarily.

Prediction of Width-Direction Asymmetric Deformation Behavior and Its Setup Model in Plate Rolling (후판 압연공정에서 폭방향 비대칭 변형거동 예측 및 설정모델에 관한 연구)

  • Byon, Sang-Min
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.35 no.11
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    • pp.1437-1443
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    • 2011
  • Thick plates produced by the rolling process are used as the basic elements of ship structures. In this paper, we present a setup model for controlling the asymmetric factors causing plate bending in the width direction during plate rolling. A series of three-dimensional finite element analyses is conducted to predict the relationship between various asymmetric factors and plate bending. The setup model is developed by performing regression on the relationship to produce linear equations with several nondimensional parameters. The setup model is verified with a pilot rolling test in which variations in thickness and temperature differences in the width direction exist. The results show that the bending curvatures predicted by the model are in fairly good agreement with the measured results for those asymmetric factors.

Experimental Investigation of Working Fracture in Silicon Steel Strip Occurring Due to Change in Roll-Gap Profile in Cold Rolling (실리콘 강판 냉간압연 중 발생하는 롤갭 형상변화에 의한 가공파손에 관한 실험적 분석)

  • Byon, Sang-Min;Lee, Jae-Hyeon;Kim, Sang-Rok;Choi, Hyeon-Sik
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.34 no.9
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    • pp.1299-1304
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    • 2010
  • We examined the working fracture behavior of a silicon-steel strip caused by deformation deviation by performing a pilot rolling test. The deformation deviation resulted in the edges (or center portion) of the strip being stretched and the other parts being compressed in the rolling direction; this was because of different degrees of deformation in these parts. We designed roll grooves shape to reflect the role of roll bending, which generates waviness in the strip in an actual cold rolling process, into the pilot rolling test. The material used in the rolling test was highsilicon steel (about 3%). The results of the test showed that the type of fracture in the strip specimen varied with the magnitude of the deformation deviation. The tensile stress produced at the strip edges because of the center waviness in the rolling direction was a crucial factor that resulted in edge cracking and a zigzag-shaped fracture at the center.

Computation of High Temperature Friction Coefficient of SCM435 Steel (SCM435 강의 고온마찰계수 계산)

  • Sung, J.U.;Cho, S.H.;Lee, H.J.;Lee, Y.
    • Transactions of Materials Processing
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    • v.20 no.3
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    • pp.243-249
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    • 2011
  • In this study, an approach designed to compute high temperature friction coefficients for SCM 435 steel through a pilot hot rolling test and a finite element analysis, is proposed. Single pass pilot hot flat rolling tests with reduction ratios varying from 20 to 40% were carried out at temperatures ranging from 900 to $1200^{\circ}C$. In the proposed approach, the friction coefficient is calculated by comparing the measured strip spread and the roll force with the simulation results. This study showed that the temperature and reduction ratio had a significant influence on the friction coefficient. As both material temperature and reduction ratio become higher, the friction coefficient increases monotonically. This finding is not in agreement with the Ekelund model, which is widely used in the analysis of the hot rolling process. In the present work, the friction coefficient at a reduction ratio of 40% was found to be 1.2 times greater than that at a reduction of 30%. This higher friction coefficient means that an increment of the roll thrust force is expected at the next stand. Therefore, a roll pass designer must understand this phenomenon in order to adjust the reduction ratio at the stands while keeping the driving power, the roll housing structure and the work roll strength within the allowable range.

AGS Distribution in Low-Speed Round-Oval Rolling of S20C Steel (S20C강 저속 라운드-모발 압연의 AGS 분포)

  • Kwon H. C.;Lee H. W.;Lee Y.;Im Y. T.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2004.08a
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    • pp.297-306
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    • 2004
  • This study investigated Austenite Grain Size (AGS) distribution in Low-Speed Round-Oval Rolling. Rolling experiments were done along with the AGS numerical modeling to characterize the final AGS distribution and its kinetics behavior. For bar rolling experiment, we utilized the pilot rolling mill, operating at 34 fixed rpm, at POSCO Technical Research Laboratories. To investigate the microstructural observation, the rigid-viscoplastic finite element analysis was combined with Hodgson's AGS evolution model. To consider the transient thermal history in the integrative AGS modeling, additivity rule was introduced. The integrated analysis revealed that static or meta-dynamic recrystallization is responsible for the AGS difference in the inner or outer region of rolled bar. Comparative study showed that the current AGS modeling approach can be used to model the overall AGS distribution in bar rolling processes. For more accurate AGS prediction, the AGS modeling method should be verified under the various rolling conditions such as different rolling speeds and different deformations.

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AGS Distribution of Round-oval and Square-Diamond Rolling of SCM435 Steel (SCM435 강의 라운드-오발 및 스퀘어-다이아몬드 압연 공정에서의 AGS 분포)

  • Lee H. W.;Kwon H. C.;Zahiri S. H.;Hodgson P. D.;Im Y. T.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2004.08a
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    • pp.317-326
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    • 2004
  • This study investigated tile local austenite grain size (AGS) distribution In rolling of SCM435 steel which is commonly used for high strength bolt. To investigate AGS distribution, round-oval (R-O) and square-diamond (S-D) rolling experiments were carried out with pilot mill. In round-oval rolling, local AGS has a tendency to increase when it goes to outward. In square-diamond rolling, local AGS has a tendency to increase when it goes to free surface. To investigate relation between AGS and process parameter, three dimensional FE analysis was carried out along with rolling experiment. To validate accuracy of FE analysis, we compared deformed geometry with FE result. The AGS prediction combined AGS model with numerical analysis was also carried out for center node of S-D rolling. Although this study brought experimental observation and its qualitative analysis into focus and quantitative AGS prediction will be done as a further work.

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Correlation between Edge Scab and Corner Cracks on a Slab in Hot Strip Mill (열연 슬라브 모서리 크랙과 에지-스캡 결함의 연관성)

  • Kwon, H.C.;Lee, S.J.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2009.04a
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    • pp.73-76
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    • 2009
  • Increase in tensile strength of steel is important for fuel efficiency and $CO_2$ reduction. But the higher the strip strength, the more defect could be generated in hot strip mill. This study focuses on line-type edge scab. One of the causes for the defect is initial edge cracks commonly observed on a slab but their correlation has not been verified yet. Thus, the objective of this report is to verify if the edge crack is exactly the seed for edge scab. For this, we conducted pilot hot rolling test with cracked slab and compared the development of cracks and edge scabs on hot-rolled strip.

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