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A Simplified Approach for the Hydro-forming Process of Bi-metallic Composite Pipe

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Języki publikacji
EN
Abstrakty
EN
In this article, it aims to propose effective approaches for hydro-forming process of bi-metallic composite pipe by assuming plane strain and elastic-perfectly plastic material model. It derives expressions for predicting hydro-forming pressure and residual stress of the forming process of bi-metallic composite pipe. Test data from available experiments is employed to check the model and formulas. It shows the reliability of the proposed model and formulas impersonally.
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Twórcy
autor
  • School of Chemical Engineering, Northwest University, Xián, 710069, China
autor
  • School of Chemical Engineering, Northwest University, Xián, 710069, China
autor
  • School of Chemical Engineering, Northwest University, Xián, 710069, China
autor
  • School of Chemical Engineering, Northwest University, Xián, 710069, China
autor
  • School of Chemical Engineering, Northwest University, Xián, 710069, China
autor
  • School of Chemical Engineering, Northwest University, Xián, 710069, China
Bibliografia
  • [1] H. Haghighat, G.R. Asgari, A generalized spherical velocity field for bi-metallic tube extrusion through dies of any shape, International Journal of Mechanical Sciences 53, 248-253 (2011).
  • [2] M. Knezevic, M. Jahedi, Y.P. Korkolis, I.J. Beyerlein, Material-based design of the extrusion of bimetallic tubes, Computational Materials Science 95, 63-73 (2014).
  • [3] N. R. Chitkara, A. Aleem, Extrusion of axi-symmetric bi-metallic tubes from solid circular billets: application of a generalized upper bound analysis and some experiments, International Journal of Mechanical Sciences 43, 2833-2856 (2001).
  • [4] R. Lapovok, H.P. Ng, D. Tomus, Y. Estrin, Bimetallic copper – aluminium tube by severe plastic deformation, Scripta Materialia 66, 1081-1084 (2012).
  • [5] X. Yang, F. Sun, Z. Zhang, H. Shen, S. Guo, Optimization of drawing parameters for copper tubes with hollow sinking based on FEM simulation, The Chinese Journal of Nonferrous Metals 18, 2245-2252 (2008).
  • [6] L. Xue, Y. He, R. Liu, C. Dai, J. Chen, FEA on empty-sunken steel tube based on ANSYS/LSDYNA, Journal of Plasticity Engineering 12 (5), 74-77 (2005).
  • [7] K. Vedeld, H. Osnes, O. Fyrileiv, Analytical expressions for stress distributions in lined pipes: Axial stress and contact pressure interaction, Marine Structures 26, 1-26 (2012).
  • [8] H. Krips, M. Podhorsky, Hyraolic Expansion a New Method for Anchoring of Tubes, VGB KRAFWERKSTECHINK 56 (7), 144-153 (1976).
  • [9] M. Takemoto, Tubular Heat Exchanger strength – hydraulic expanding fitting pull-off force detained, Pressure Vessel 2, 68-75 (1984).
  • [10] H. Yan, C. Yu, Drawing algorithm for residual contact pressure in heat exchangers during hydraulic expanding, Chemical Machinery 28, 211-214 (2001).
  • [11] X. Wang, P. Li, R. Wang, Study on hydro-forming technology of manufacturing bimetallic CRA-lined pipe, Int. J. of Machine Tools & Manuf. 45, 373-378 (2005).
  • [12] B. Xu, X. Liu, Applied elastic-plastic mechanics, Tsinghua University Press, 128-233 (1995).
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-02b95cd8-b6b7-4192-b91e-c3ff82aefa23
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