Characteristics of creep of fine-grained zirconium
Keywords:
creep, intence plastic deformation, structural instability
Abstract
Creep studies in the temperature range 300 – 700 K have shown that the deviation from depending the Hall-Petch relationship for a nano-structured zirconium is associated with the decrease of the contribution of the mechanisms of intragranular slip in the plastic deformation and increasing of the contribution of the mechanisms more characteristic of high-temperature creep.
All studied materials have instability of the structural state after creep deformation in the all temperature range. That is a result of the change in the geometry of the applied stress and low strain rate and significantly influences on the creep characteristics.
Downloads
Download data is not yet available.
References
Valiev R.Z. Nanostructure materials got an intensive plastic deformation /R.Z Valiev, I.V. Aleksandrov // Moscow: Logos. - 2000. - 271 p.
Rybin V.V. Large plastic deformation and fracture of metals / V.V. Rybin / / Moscow: Metallurgy Publ. - 1986. - 224 p. (in Russian).
Glensdorf P. Thermodynamics theory of structures of stability and fluctuations / P. Glensdorf, I. Pregogin // Moscow: Mir Publ. - 1973. - 280 p. (in Russian).
Ebeling V. Formation of structures at the irreversible processes / V. Ebeling // Moscow: Mir Publ. - 1979. - 325 p. (in Russian).
Mazury M.I. Using hydrogen doping to form submicrocrystalline structure in two-phase titanium alloys / Mazury M. I., Murzinova M.A., Salishchev G.A., Afonichev D.D. // Metals. 1995. -№6.-C. 83-88.
Kozlov E.V. Knock-dragging of the dislocations. The problem of the Hall-Petch / E.V. Kozlov, A.N. Zhdanov, Konev N.A. // Fiz mechanic, 2006, v.9, №3, S.81-92.
Pumphrey P.H. On the structure of non-equilibrium high-angle grain boundaries / Pumphrey P.H., Gleiter H. // Phil. Mag. 1975. - V. 32. - P. 881 - 885.
Kibyshev O.A. Boundaries of grains and properties of metals. / О.A. Kibyshev, R.Z. Valiev // Moscow: Metallurgy Publ. - 1987. - 212 p. (in Russian).
Mishra R.S. An evaluation of the applicability of theoretical models for elevated temperature plasticity to ultrafine-grained materials / Mishra R.S // Minerals, Metals and Materials Society. 2000. - P.421 - 426.
Aksenov V.K. Structural and activating descriptions of creep of nickel in the interval of temperatures 4,2-140 K / V.K. Aksenov, I.A. Gindin, V.P. Lebedev, Ya.D. Starodubov // Low Temp. Phys. 1980, v.6, №1, p.118- 129 (in Russian).
Borisova I.F. Texture formation peculiarities of zirconium in condition of large plastic deformation and its influence on characteristics of creep in the temperatures range 300-700 K / І.F. Borisova, I.N. Butenko, E.V. Karaseva, D.G. Malyhin, A.V. Mats, V.I. Sokolenko, V.A. Frolov // Problems of atomic science and technology, Series: “Physics of radiation effect and radiation materials science”. - 2009. - V. 93, №2. - p. 100-105 (in Russian).
Karaseva E.V Effect of structural instability on creep of zirconium subjected to severe plastic deformation /E.V. Karaseva, A.V. Matz, V.I. Sokolenko, V.A. Frolov //Problems of atomic science and technology, Series: “Vacuum, Pure materials, Supreconductors”. - 2014. - V.89, №1. - p. 106-109.
Karaseva E.V Influence of different thermomechanical treatments on mechanical properties and creep of Zr1Nb alloy in the temperatures range 300-700 K. / E.V. Karaseva, V.I. Sokolenko // Problems of atomic science and technology, Series: “Physics of radiation effect and radiation materials science”. - 2014. - V. 89, №1. - p. 70-73.
Karaseva E.V Creep of Zr1Nb alloy in different structural state in temperature range 300-700 K / E.V. Karaseva, D.G. Malykhin, A.V. Matz, V.I. Sokolenko // Problems of atomic science and technology, Series: "Physics of radiation effect and radiation materials science". - 2011. - V. 74, №4. - p. 45-48.
Rybin V.V. Large plastic deformation and fracture of metals / V.V. Rybin / / Moscow: Metallurgy Publ. - 1986. - 224 p. (in Russian).
Glensdorf P. Thermodynamics theory of structures of stability and fluctuations / P. Glensdorf, I. Pregogin // Moscow: Mir Publ. - 1973. - 280 p. (in Russian).
Ebeling V. Formation of structures at the irreversible processes / V. Ebeling // Moscow: Mir Publ. - 1979. - 325 p. (in Russian).
Mazury M.I. Using hydrogen doping to form submicrocrystalline structure in two-phase titanium alloys / Mazury M. I., Murzinova M.A., Salishchev G.A., Afonichev D.D. // Metals. 1995. -№6.-C. 83-88.
Kozlov E.V. Knock-dragging of the dislocations. The problem of the Hall-Petch / E.V. Kozlov, A.N. Zhdanov, Konev N.A. // Fiz mechanic, 2006, v.9, №3, S.81-92.
Pumphrey P.H. On the structure of non-equilibrium high-angle grain boundaries / Pumphrey P.H., Gleiter H. // Phil. Mag. 1975. - V. 32. - P. 881 - 885.
Kibyshev O.A. Boundaries of grains and properties of metals. / О.A. Kibyshev, R.Z. Valiev // Moscow: Metallurgy Publ. - 1987. - 212 p. (in Russian).
Mishra R.S. An evaluation of the applicability of theoretical models for elevated temperature plasticity to ultrafine-grained materials / Mishra R.S // Minerals, Metals and Materials Society. 2000. - P.421 - 426.
Aksenov V.K. Structural and activating descriptions of creep of nickel in the interval of temperatures 4,2-140 K / V.K. Aksenov, I.A. Gindin, V.P. Lebedev, Ya.D. Starodubov // Low Temp. Phys. 1980, v.6, №1, p.118- 129 (in Russian).
Borisova I.F. Texture formation peculiarities of zirconium in condition of large plastic deformation and its influence on characteristics of creep in the temperatures range 300-700 K / І.F. Borisova, I.N. Butenko, E.V. Karaseva, D.G. Malyhin, A.V. Mats, V.I. Sokolenko, V.A. Frolov // Problems of atomic science and technology, Series: “Physics of radiation effect and radiation materials science”. - 2009. - V. 93, №2. - p. 100-105 (in Russian).
Karaseva E.V Effect of structural instability on creep of zirconium subjected to severe plastic deformation /E.V. Karaseva, A.V. Matz, V.I. Sokolenko, V.A. Frolov //Problems of atomic science and technology, Series: “Vacuum, Pure materials, Supreconductors”. - 2014. - V.89, №1. - p. 106-109.
Karaseva E.V Influence of different thermomechanical treatments on mechanical properties and creep of Zr1Nb alloy in the temperatures range 300-700 K. / E.V. Karaseva, V.I. Sokolenko // Problems of atomic science and technology, Series: “Physics of radiation effect and radiation materials science”. - 2014. - V. 89, №1. - p. 70-73.
Karaseva E.V Creep of Zr1Nb alloy in different structural state in temperature range 300-700 K / E.V. Karaseva, D.G. Malykhin, A.V. Matz, V.I. Sokolenko // Problems of atomic science and technology, Series: "Physics of radiation effect and radiation materials science". - 2011. - V. 74, №4. - p. 45-48.
Published
2016-12-28
How to Cite
Karaseva, E. V. (2016). Characteristics of creep of fine-grained zirconium. Journal of V. N. Karazin Kharkiv National University. Series Physics, (23), 6-10. Retrieved from https://periodicals.karazin.ua/physics/article/view/7765
Section
Articles