Issue 27

A. Kostina et alii, Frattura ed Integrità Strutturale, 27 (2014) 28-37; DOI: 10.3221/IGF-ESIS.27.04 37 d   deviator part of the stress tensor i  , , , i p p    characteristic relaxation times τ the constant describing the heat exchange process with the surroundings  free energy R EFERENCES [1] Bever, M.B., Holt, D.L., Tichener, A.L., The stored energy of cold work, Progress in Materials Science, 17 (1973) 5– 173. [2] Fedorova, A.Yu., Bannikov, M.V., Plekhov, O.A., A study of the stored energy in titanium under deformation and failure using infrared data, Fracture and Structural Integrity, 24 (2013) 81-88. [3] Plekhov, O.A., Naimark, O.B., Saintier, N., Palin-Luc, T., Elastic-plastic transition in iron: Structural and thermodynamic features, Technical Physics, 54(8) (2009) 1141-1146. [4] Chrysochoos, A., Louche, H., An infrared image processing to analyse the calorific effects accompanying strain localization, International Journal of Engineering Science, 38 (2000) 1759–1788. [5] Chrysochoos, A., Balandraud, X., Wattrisse, B., Identification procedure using full-field measurements applications in mechanics and structures, Processing of CNRS summer school, 2013 May 21-25; Montpellier, France. [6] Fedorova, A.Yu., Bannikov, M.V., Plekhov, O.A., Infrared thermography study of the fatigue crack propagation, Fracture and Structural Integrity, 21 (2012) 46-53. [7] Hodowany, J., Ravichandran, G., Rosakis, A.J., Rosakis, P., Partition of plastic work into heat and stored energy in metals, Exp. Mech., 40(2) (2000) 113–123. [8] Plekhov, O., Uvarov, S., Naimark, O., Theoretical and experimental investigation of dissipated and stored energy ratio in iron under quasi-static and cyclic loading, Strength of materials, 1(391) (2008) 101–105. [9] Taylor, G.I., Quinney, H., The latent energy remaining in a metal after cold working, Proc. R. Soc. A, 143 (1934) 307– 326. [10] Rittel, D., Wang, Z.G., Merzer, M., Adiabatic shear failure and dynamic stored energy of cold work, Physical Review Letters, 96 (2006) 075502(1–4). [11] Naimark, O.B., Structural-scaling transitions in mesodefect ensembles as mechanisms of relaxation and failure in shocked and dynamically loaded materials (experimental and theoretical study), J. Phys. IV. France, 134 (2008) 3–9. [12] Naimark, O.B., Bayandin, Yu.V., Leontiev, V.A., Panteleev, I.A., Plekhov, O.A., Structural-scaling transitions and thermodynamic and kinetic effects in submicro-(nano)crystalline bulk materials, Phys. Mesomech., 12(5-6) (2009) 239–248.