How to cite this paper
Ashkeyev, Z., Abishkenov, M., Mashekov, S & Kawałek, A. (2021). Stress state and power parameters during pulling workpieces through a special die with an inclined working surface.Engineering Solid Mechanics, 9(2), 161-176.
Refrences
Abishkenov, M., Ashkeyev, Zh., Mashekov, S., Akhmetova, G., & Volokitina, I. (2020). Investigation of the stress-strain state of balls under deformation in a closed die. Metalurgija, 59(4), 559–562.
Ashkeev, Zh., Naizabekov, A., Lezhnev, S., & Toleuova, A. (2005). Billet deformation in uniform-channel stepped die. Steel in Translation, 35(2), 37–39.
Azushima, A., Kopp, R., Korhonen, A., Yang, D.Y., Micari, F., Lahoti, G.D., Groche, P., Yanagimoto, J., Tsuji, N., Rosochowski, A., & Yanagida, A. (2008). Severe plastic deformation (SPD) for metals. CIRP Annals - Manufacturing Technology, 57(2), 716–735.
Bhaduri, A. (2006). Mechanical Properties and Working of Metals and Alloys. Berlin–Heidelberg: Springer.
Carlsson, B., & Huml, P. (1996). Determination of the Material Properties of an Anisotropic Metal Wire. CIRP Annals, 45(1), 231–233.
Chung, K. & Lee, M.-G. (2018). Basics of Continuum Plasticity. Singapore: Springer.
Dixit, P.M. & Dixit, U.S. (2014). Plasticity: Fundamentals and Applications. Boca Raton: CRC Press.
Doltsinis, I. (2001). Elements of Plasticity: Theory and Computation. Southempton: WIT Press.
Frint, P., & Wagner, M. (2019). Strain partitioning by recurrent shear localization during equal-channel angular pressing of an AA6060 aluminum alloy. Acta Materialia, 176, 306–317.
Ghader, F., Hyoung S.K., & Hessam, T.K. (2018). Severe Plastic Deformation: Methods, Processing and Properties. Amsterdam: Elsevier.
Goloujeh, M.R., & Soltanpour, M. (2020). Simple Shear Forging as a Method for Severe Plastic Deformation. International Journal of Lightweight Materials and Manufacture (in press, journal pre-proof).
Hardy, C., Baronet, C.N., & Tordion, G.V. (1971). The elasto-plastic indentation of a half-space by rigid sphere. International Journal for Numerical Methods in Engineering, 3(3), 451–462.
Harsha, R.N., Mithun Kulkarni, V., & Satish Babu, B. (2018). Severe Plastic Deformation - A Review. Materials Today: Proceedings, 5(10), 22340–22349.
Hill, R. (1998). The Mathematical Theory of Plasticity. Oxford: Oxford University Press.
Hosford, W.F. (2013). Fundamentals of Engineering Plasticity. New York: Cambridge University Press.
Iordachescu, M., de Abreu, M., & Valiente, A. (2015). Effect of cold-drawn induced anisotropy on the failure of high strength eutectoid and duplex steel wires. Engineering Failure Analysis, 56, 412–421.
Lee, C.H., & Kobayashi, S. (1970). Elastoplastic analysis of plane strain and axisymmetric flat punch indentation by the finite element method. International Journal of Mechanical Sciences, 12(4), 349–370.
Mashekov, S., Angarbekov, U., Uderbayeva, A., & Sarsenbayev, N. (2020). New-design radial-shear rolling mill (RSRM) automation. Metalurgija, 59(4), 563–566.
Naizabekov, A., Bykhin, M., Nogaev, K., & Bykhin, B. (2010). Study of the process of realization of high-rate plastic deformation in lengthwise rolling. METAL 2010 - 19th International Conference on Metallurgy and Materials, Conference Proceedings (Roznov pod Radhostem: Tanger Limited),192–202.
Rahimi, F., Eivani, A.R., Jafarian, H.R., & Bhattacharjee, T. (2017). Effect of pure shear strain on mechanical properties and microstructural evolution. Materials Science and Engineering: A, 679, 133–142.
Rajan, K., & Petkie, R. (1998). Microtexture and anisotropy in wire drawn copper. Materials Science and Engineering: A, 257(1), 185–197.
Rees, D.W.A. (2006). Basic Engineering Plasticity: An Introduction with Engineering and Manufacturing Applications. Oxford: Butterworth-Heinemann.
Segal, V.M. (1999). Equal channel angular extrusion: from macromechanics to structure formation. Materials Science and Engineering: A, 271(1–2), 322–333.
Toribio, J. (2019). Crack path deflection in cold-drawn pearlitic steel as a consequence of microstructural anisotropy generated by manufacturing: Resembling Picasso, Larionov and Goncharova. Procedia Structural Integrity, 16, 281–286.
Valiev, R.Z., Zhilyaev, A.P., & Langdon, T.G. (2014). Bulk Nanostructured Materials: Fundamentals and Applications. Hoboken, New Jersey: John Wiley & Sons, Inc.
Voyiadjis, G.Z., & Buckner, N.E. (1983). Indentation of a half-space with a rigid indentor. International Journal for Numerical Methods in Engineering, 19(10), 1555–1578.
Wright, R.N. (2016). Wire Technology: Process Engineering and Metallurgy. Oxford: Butterworth-Heinemann.
Yu, M.-H., Ma, G.-W., Qiang, H.-F., & Zhang, Y.-Q. (2006). Generalized Plasticity. Berlin–Heidelberg: Springer.
Zehetbauer, M.J., & Valiev, R.Z. (2004). Nanomaterials by Severe Plastic Deformation. Hoboken, New Jersey: John Wiley & Sons, Inc.
Zolotorevsky, N., & Krivonosova, N. (1996). Effect of ferrite crystals' plastic anisotropy on residual stresses in cold-drawn steel wire. Materials Science and Engineering: A, 205(1–2), 239–246.
Ashkeev, Zh., Naizabekov, A., Lezhnev, S., & Toleuova, A. (2005). Billet deformation in uniform-channel stepped die. Steel in Translation, 35(2), 37–39.
Azushima, A., Kopp, R., Korhonen, A., Yang, D.Y., Micari, F., Lahoti, G.D., Groche, P., Yanagimoto, J., Tsuji, N., Rosochowski, A., & Yanagida, A. (2008). Severe plastic deformation (SPD) for metals. CIRP Annals - Manufacturing Technology, 57(2), 716–735.
Bhaduri, A. (2006). Mechanical Properties and Working of Metals and Alloys. Berlin–Heidelberg: Springer.
Carlsson, B., & Huml, P. (1996). Determination of the Material Properties of an Anisotropic Metal Wire. CIRP Annals, 45(1), 231–233.
Chung, K. & Lee, M.-G. (2018). Basics of Continuum Plasticity. Singapore: Springer.
Dixit, P.M. & Dixit, U.S. (2014). Plasticity: Fundamentals and Applications. Boca Raton: CRC Press.
Doltsinis, I. (2001). Elements of Plasticity: Theory and Computation. Southempton: WIT Press.
Frint, P., & Wagner, M. (2019). Strain partitioning by recurrent shear localization during equal-channel angular pressing of an AA6060 aluminum alloy. Acta Materialia, 176, 306–317.
Ghader, F., Hyoung S.K., & Hessam, T.K. (2018). Severe Plastic Deformation: Methods, Processing and Properties. Amsterdam: Elsevier.
Goloujeh, M.R., & Soltanpour, M. (2020). Simple Shear Forging as a Method for Severe Plastic Deformation. International Journal of Lightweight Materials and Manufacture (in press, journal pre-proof).
Hardy, C., Baronet, C.N., & Tordion, G.V. (1971). The elasto-plastic indentation of a half-space by rigid sphere. International Journal for Numerical Methods in Engineering, 3(3), 451–462.
Harsha, R.N., Mithun Kulkarni, V., & Satish Babu, B. (2018). Severe Plastic Deformation - A Review. Materials Today: Proceedings, 5(10), 22340–22349.
Hill, R. (1998). The Mathematical Theory of Plasticity. Oxford: Oxford University Press.
Hosford, W.F. (2013). Fundamentals of Engineering Plasticity. New York: Cambridge University Press.
Iordachescu, M., de Abreu, M., & Valiente, A. (2015). Effect of cold-drawn induced anisotropy on the failure of high strength eutectoid and duplex steel wires. Engineering Failure Analysis, 56, 412–421.
Lee, C.H., & Kobayashi, S. (1970). Elastoplastic analysis of plane strain and axisymmetric flat punch indentation by the finite element method. International Journal of Mechanical Sciences, 12(4), 349–370.
Mashekov, S., Angarbekov, U., Uderbayeva, A., & Sarsenbayev, N. (2020). New-design radial-shear rolling mill (RSRM) automation. Metalurgija, 59(4), 563–566.
Naizabekov, A., Bykhin, M., Nogaev, K., & Bykhin, B. (2010). Study of the process of realization of high-rate plastic deformation in lengthwise rolling. METAL 2010 - 19th International Conference on Metallurgy and Materials, Conference Proceedings (Roznov pod Radhostem: Tanger Limited),192–202.
Rahimi, F., Eivani, A.R., Jafarian, H.R., & Bhattacharjee, T. (2017). Effect of pure shear strain on mechanical properties and microstructural evolution. Materials Science and Engineering: A, 679, 133–142.
Rajan, K., & Petkie, R. (1998). Microtexture and anisotropy in wire drawn copper. Materials Science and Engineering: A, 257(1), 185–197.
Rees, D.W.A. (2006). Basic Engineering Plasticity: An Introduction with Engineering and Manufacturing Applications. Oxford: Butterworth-Heinemann.
Segal, V.M. (1999). Equal channel angular extrusion: from macromechanics to structure formation. Materials Science and Engineering: A, 271(1–2), 322–333.
Toribio, J. (2019). Crack path deflection in cold-drawn pearlitic steel as a consequence of microstructural anisotropy generated by manufacturing: Resembling Picasso, Larionov and Goncharova. Procedia Structural Integrity, 16, 281–286.
Valiev, R.Z., Zhilyaev, A.P., & Langdon, T.G. (2014). Bulk Nanostructured Materials: Fundamentals and Applications. Hoboken, New Jersey: John Wiley & Sons, Inc.
Voyiadjis, G.Z., & Buckner, N.E. (1983). Indentation of a half-space with a rigid indentor. International Journal for Numerical Methods in Engineering, 19(10), 1555–1578.
Wright, R.N. (2016). Wire Technology: Process Engineering and Metallurgy. Oxford: Butterworth-Heinemann.
Yu, M.-H., Ma, G.-W., Qiang, H.-F., & Zhang, Y.-Q. (2006). Generalized Plasticity. Berlin–Heidelberg: Springer.
Zehetbauer, M.J., & Valiev, R.Z. (2004). Nanomaterials by Severe Plastic Deformation. Hoboken, New Jersey: John Wiley & Sons, Inc.
Zolotorevsky, N., & Krivonosova, N. (1996). Effect of ferrite crystals' plastic anisotropy on residual stresses in cold-drawn steel wire. Materials Science and Engineering: A, 205(1–2), 239–246.