In process design of bar rolling, accurate prediction of deformed shape of the rolled workpiece is important in determining the total number of passes. Thus, development of an approximate analytical model for predicting an accurate rolled shape with less computation time will be beneficial for practical purpose. In the present study, such a model for the three-roll system with multi-passes was developed by deriving spread and geometrical configuration formulae from the finite element (FE) analysis results of a seven-passes sequence rolling. In FE simulations, process parameters such as the initial workpiece geometry and the amount of roll draft and roll speed were varied. By comparing spread ratios of FE simulation results three representative geometry changes (round-curved hexagonal, curved hexagonal-hexagonal, and hexagonal-hexagonal) were identified. For each representative geometry change those two formulae were determined in the present investigation. The formulae determined were further applied to a three-roll process with four-passes sequence. The final workpiece geometry predicted based on the model developed was found to be in good agreement with experimental and FE simulation results. Thus, the analytical model developed in the current approach can be effectively used in the design of multi-pass three-roll rolling processes.


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    Title :

    Analytical model for prediction of deformed shape in three-roll rolling process


    Contributors:
    Min, J.H. (author) / Kwon, H.C. (author) / Lee, Y. (author) / Woo, J.S. (author) / Im, Y.T. (author)


    Publication date :

    2003


    Size :

    7 Seiten, 13 Bilder, 2 Tabellen, 9 Quellen




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




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