Scientific basis for cold brittleness of structural BCC steels and their structural degradation at below zero temperatures
暂无分享,去创建一个
V. Panin | B. Ovechkin | A. Syromyatnikova | N. Surikova | M. Lebedev | Y. Pochivalov | L. Derevyagina
[1] A. Panin,et al. Fundamental role of crystal structure curvature in plasticity and strength of solids , 2015 .
[2] A. A. Dmitriev,et al. Bifurcational behavior of potential energy in a particle system , 2013 .
[3] V. Egorushkin,et al. Curvature solitons as generalized structural wave carriers of plastic deformation and fracture , 2013 .
[4] Yulia Popkova,et al. The role of curvature of the crystal structure in the formation of micropores and crack development under fatigue fracture of commercial titanium , 2013 .
[5] V. Egorushkin,et al. Physical mesomechanics of grain boundary sliding in a deformable polycrystal , 2013 .
[6] S. Gladkovskii,et al. Effect of submicrocrystalline state on strength and impact toughness of low-carbon 12GBA steel , 2012, Physics of metals and metallography.
[7] O. I. Sleptsov,et al. Diagnostics and safety of aging large mechanical systems operating under conditions of the Far North: The problem and ways to solve it , 2008 .
[8] V. E. Panin,et al. Synergetic principles of physical mesomechanics , 2001 .
[9] G. P. Cherepanov,et al. On the theory of thermal stresses in a thin bonding layer , 1995 .