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2007 | Vol. 23, nr 2 | 79-82
Tytuł artykułu

Increasing SPD effectiveness by changing deformation process in the first pass through the ECAP die

Wybrane pełne teksty z tego czasopisma
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: Purpose of this paper Technology ECAP belongs to the most efficient technologies for production of materials with ultra-fine grained structure. Its disadvantage consists in necessity to make 4 to 5 passes through the channel of forming tool in order to obtain high degree of deformation needed for grain disintegration. Design/methodology/approach: Newly proposed geometry of the channel makes it possible to achieve up to double amount of deformation during the first pass through deformation tool. Findings: In this manner it is possible to obtain much higher efficiency of the whole process. It is a completely new approach to development of this technology. Research limitations/implications: New geometry of tool has been designed which represents the first step toward application of the given equipment in semi-industrial conditions. Practical implications: Obtained results form good pre-requisite for further development of technology for production of ultra-fine grained materials. Originality/value: Achievement of high amount of deformation already at the first pass through the modified ECAP tool. This will create an ultra-fine grained structure, which makes it possible to obtain required mechanical properties of formability with much lower number of passes. New findings will be applied in the field of forming.
Wydawca

Rocznik
Strony
79-82
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
autor
autor
  • VSB - Technical University of Ostrava, Faculty of Mechanical Engineering, 17 listopadu 15, 708 33 Ostrava - Poruba, Czech Republic, groot@amme.com
Bibliografia
  • [1] M. Yu Gutkin, LA. Ovidko, C.S. Pande, Theoretical models of plastic deformation processes in nanocrystalline materials, Reviews on Advanced Materials Science 2 (2001) 80-102.
  • [2] M.A.M. Bourke, S. Li, I.J. Beyerlein, D.J. Alexander B. Clausen, Finite element analysis of the plastic deformation zone and working load in equal channel angular extrusion, Materials Science and Engineering 49 (2003) 185-204.
  • [3] L.I. Saiyi, I.J. Beyerlein, C.T. Necker, D.J Alexander, Heterogeneity of deformation texture in equal channel angular extrusion of copper, Acta Materialia 52 (2004) 1459-1475.
  • [4] X. Cheng, T.G. Langdon, Influence of a round Conner die on flow homogeneity in ECA pressing, Scripta Materialia 48 (2002) 1-4.
  • [5] Y. Inwahashi, J. Wang, M. Horita, Z. Nemoto, T.G. Langdon, Principle of equal-channel angular pressing for processing of ultra-fine grained materials, Scripta Materialia 35 (1995) 143-147.
  • [6] I. Agnew, O. Duygulu, Material Science Forum 177 (2003) 419-422.
  • [7] K.N. Braszczynska-Malik, L. Froven, Equal channel angular pressing of magnesium AZ91 alloy, World Wide Congress or Materials and Manufacturing Engineering and Technology.
  • [8] M.M. Avedesian, H. Baker (Eds.), ASM Specialty Handbook Magnesium and Magnesium Alloys, The Materials Information Society, Materials Park, OH, 1999.
  • [9] I.J. Beyerlein, R.A. Lebensohn, C.N. Tome, Ultrafine Grained Materials II, TMS, Seattle, 2002.
  • [10] K. Kuzman, Problems of accuracy control in cold forming Journal of Materials Processing Technology 113 (2001)10-15.
  • [11] S.M. Byon, S.M. Hwang, Die shape optimal design in cold and hot extrusion, Journal of Materials Processing Technology 138 (2003) 316-324
  • [12] P.B. Prangnell, C. Harris and S.M. Roberts, Finite element modeling of equal channel angular extrusion, Scripta Materialia 37 (1997) 983-989.
  • [13] D.P. Delo, S.L. Semiatin, Finite-element modeling of non-isothermal equal-channel angular extrusion, Metallurgical and Materials Transactions A30 (1999) 1391-1402.
  • [14] M. Furukawa, Z. Horita, H.G. Langdon, Factors influencing the shearing patterns in equal-channel angular pressing Materials Science and Engineering A332 (2002) 97-109.
  • [15] J.H. Lee, I.H. Son, Y.T. Im, Finite element investigation of equal channel angular extrusion process, Materials Transactions, The Japan Institute of Metals 45 (2004) 2165-2171.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS5-0019-0091
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