Contents
INTRODUCTION
1 STRUCTURAL SUPERPLASTICITY OF POLYCRYSTALLINE MATERIALS
1��1�� Structural levels�� spatial scales and description levels
1��2�� Structural superplasticity�� from the combination of mechanisms to cooperative grain boundaries sliding
1��3�� Structural superplasticity�� from meso-description to macroeharacteristics
References

2 CHARACTERISTICS OF GRAIN BOUNDARY ENESEMBLES
2��1�� Crystal geometry and structure of intercrystalline boundaries
2��1��1�� Methods for describing the structure of the grain boundaries
2��1��2�� Analytical representation of the basis of the coincident-site lattice for cubic lattices
2��2�� Special grain boundaries in the monoclinic lattice
2��3�� Description of the grain boundary misorientation distribution ��GBMD��
2��4�� Computer model of a polycrystal�� a calculation algorithm
References

3 ORIENTATION-DISTRIBUTED PARAMETERS OF THE POLYCRYSTALLINE STRUCTURE
3��1�� The distribution function of the grains with respect to crystallographic orientations�� calculation methods
3��2�� Relationship between the grain boundary misorientation distribution and the ODF
3��3�� Correlation orientation of adjacent grains�� the concept of the basis spectra of misorientation of the grain boundaries
3��4�� Modelling the misorientation spectra of the grain boundaries in the FCC crystals with modelling ODF
References

4 EXPERIMENTAL INVESTIGATIONS OF GRAIN BOUNDARY ENSEMBLES IN POLYCRYSTALS
4��1�� Diffraction methods of measuring misorientation
4��1��1�� Methods of measuring the misorientation of two adjacent grains
4��1��2�� The experimental measurement error
4��2�� Experimental spectra of the grain boundaries in FCC polycrystals
4��3�� Orientation distribution function in Ni-Cr alloy�� experimental and modelling GBMDs
4��3��1�� Orientation distribution function in Ni-Cr alloy and stainless steels
4��3��2�� Modelling spectra of the misorientation of the grain boundaries in Ni-Cr alloy and AISI stainless steels�� comparison with the experimental results
4��4�� Special features of the grain boundaries in the FCC materials with a high stacking fault energy
4��4��1�� Rolling and annealing texture of aluminium
4��4��2�� Grain boundary ensembles in aluminium�� experiments and modelling
References

5 GRAIN BOUNDARY SLIDING IN METALLIC BI- AND TRICRYSTALS
5��1�� Dislocation nature of grain boundary sliding ��GBS��
5��2�� Formulation of the model of stimulated grain boundary sliding
5��3�� Formal solution and its analysis
5��4�� Special features of pure grain boundary sliding
5��5�� Local migration of the grain boundary as the mechanism of reorganisation of the triple junction�� weak migration approximation
5��6�� Variance formulation of the system of equations for the shape of the boundary and pile-up density
5��7�� The power of pile-ups of grain boundary dislocations
References

6 PERCOLATION MECHANISM OF DEFORMATION PROCESSES IN ULTRAFINE-GRAINED POLYCRYSTALS
6��1�� Percolation mechanism of the formation of a band of cooperative grain boundary sliding
6��2�� Conditions of formation of CGBS bands as the condition of realisation of the superplastic deformation regime
6��3�� Shear rate along the CGBS band
6��4�� Kinetics of deformation in CGBS bands
6��5�� Comparison of the calculated values with the experimental results
References

7 PERCOLATION PROCESSES IN A NETWORK OF GRAIN BOUNDARIES IN ULTRAFINE-GRAINED MATERIALS
7��1�� Effect of grain boundaries on oxidation and diffusion processes in polycrystalline oxide films
7��2�� High-resolution electron microscopy of zirconium oxide�� grain clusters�� surrounded only by special boundaries
7��3�� Effect of the statistics of the grain boundaries on diffusion in zirconium oxide
7��4�� Special features of oxidation kinetics under the effect of stresses at the metal/oxide boundary
7��5�� Texture and spectrum of misorientation of the grain boundaries in an NiO film on ��100�� and ��111�� substrates�� modelling and experiments
References

8 MICROSTRUCTURE AND GRAIN BOUNDARY ENSEMBLES IN ULTRAFINE-GRAINED MATERIALS
8��1�� Methods of producing ultrafine-grained and nanostructured materials by severe plastic deformation
8��2�� Effect of the parameters of quasi-hydrostatic pressure on the microstructure and grain boundary ensembles in nickel
8��3�� Spectrum of misorientation of grain boundaries in ultrafine-grained nickel
8��4�� Advanced methods of automatic measurement of the grain boundary parameters
8��5�� The misorientation distribution of the grain boundaries in ultrafine-grained nickel�� experiments and modelling
References

9 GRAIN BOUNDARY PROCESSES IN ULTRAFINE-GRAINED NICKEL AND NANONICKEL
9��1�� Grain growth kinetics in ECAP specimens
9��2�� Activation energy and stored enthalpy in ultrafine-grained nickel
9��3�� Evolution of the microstructure and texture in HPT nickel in annealing
9��4�� Superplasticity of nanocrystalline nickel
References

10 DURATION OF THE STABLE FLOW STAGE IN SUPER]PLASTIC DEFORMATION
10��1�� Superplastic capacity and the rate sensitivity parameter
10��2�� Description of thickness differences of a flat specimen in tensile deformation
10��3�� Formation of thickness difference as a random process
10��4�� Absorption condition and the equation for limiting strain
10��5�� Some properties of limiting strain
References

11 DERIVATION OF CONSTITUTIVE EQUATIONS IN MULTICOMPONENT LOADING CONDITIONS
11��1�� From the deformation mechanism to constitutive equations
11��2�� Kinematics of polycrystalline continuum
11��3�� Strain rate tensor determined by shear along the CGBS bands
11��4�� Degenerate cases and variants of coaxiality of the tensors
References
CONCLUSION
INDEX