1. Effect of nanocrystallization on the mechanical behavior of Fe-Ni-based amorphous alloys

   • A. M. Glezer
   • S. E. Manaenkov
   • N. A. Shurygina

   Physical Foundations of Strength and Plasticity 15 February 2012 Pages: 947 - 955

2. Mechanisms of severe plastic deformation of polycrystalline aluminum on a mesoscale upon cyclic loading

   • T. F. Elsukova
   • V. E. Panin
   • Yu. F. Popkova

   Physical Foundations of Strength and Plasticity 15 February 2012 Pages: 956 - 960

3. Cyclic evolution of the defect structure in a deformation macrolocalization zone in an HCP Zr-Nb alloy

   • T. M. Poletika
   • S. L. Girsova
   • A. P. Pshenichnikov

   Physical Foundations of Strength and Plasticity 15 February 2012 Pages: 961 - 965

4. Mathematical modeling of work hardening of heterophase materials with nanosized strengthening particles

   • T. A. Kovalevskaya
   • S. N. Kolupaeva
   • N. A. Kulaeva

   Physical Foundations of Strength and Plasticity 15 February 2012 Pages: 966 - 972

5. Dynamic fragmentation criterion that reflects the effect of the composition and mechanical properties of a material and loading conditions

   • L. R. Botvina

   Deformation and Fracture Mechanics 15 February 2012 Pages: 973 - 980

6. Effect of equal-channel angular pressing on the fatigue strength of titanium and a zirconium alloy

   • V. F. Terent’ev
   • S. V. Dobatkin
   • I. O. Bannykh

   Promising Materials and Technologies 15 February 2012 Pages: 981 - 988

7. Texture and physicomechanical properties of ribbon substrates for multilayer high-temperature superconductors

   • I. V. Gervas’eva
   • D. P. Rodionov
   • Yu. V. Khlebnikova

   Promising Materials and Technologies 15 February 2012 Pages: 989 - 992

8. Climatic aging of composite aviation materials: I. Aging mechanisms

   • E. N. Kablov
   • O. V. Startsev
   • V. N. Kirillov

   Promising Materials and Technologies 15 February 2012 Pages: 993 - 1000

9. Climatic aging of composite aviation materials: II. Relaxation of the initial structural nonequilibrium and through-thickness gradient of properties

   • E. N. Kablov
   • O. V. Startsev
   • V. N. Kirillov

   Promising Materials and Technologies 15 February 2012 Pages: 1001 - 1007

10. Structure of the welding zone between titanium and orthorhombic titanium aluminide for explosion welding: I. Interface

    • V. V. Rybin
    • B. A. Grinberg
    • V. E. Kozhevnikov

    Promising Materials and Technologies 15 February 2012 Pages: 1008 - 1015

11. Structure of the welding zone between titanium and orthorhombic titanium aluminide for explosion welding: II. Local melting zones

    • B. A. Grinberg
    • M. A. Ivanov
    • A. V. Inozemtsev

    Promising Materials and Technologies 15 February 2012 Pages: 1016 - 1025