Part 1.Volumetric derivative of energy of a deformed solid, function of state of deformation and destruction. Thermomechanical potential of indentation, gradient of specific power flux of irreversible processes during indentation and uniaxial tension, generalized and molar rheological power.
The abstract consists of 5 parts. In parts 1, 2, 3 physical methods of analysis of diagrams of kinetic indentation and uniaxial tension. In the 4th part using the concepts of molar volume, molar energy and power of deformation and destruction processes, a solid is considered as a macroscopic (statistical) structural-energy corpuscular vortex wave system. As a result, a unified picture and a universal physical method for describing irreversible processes occurring in a deformed solid are proposed. Physical universal characteristics of internal processes, physical parameters of strength, plasticity, durability, brittleness of destruction of materials under different physical and mechanical conditions are substantiated