Development of a new phenomenological models and general exploitation resource prediction method for construction elements made of composite materials in consideration of damage parameters.
There are developed new generalizing constitutive equation and phenomenological models, which describe dispersed damage accumulation kinetics in (CM) at macrocrack initiation stage in a case of complex technological and exploitation loading. There is performed a complex of experimental-theoretical researches to define applicability of developed dispersed fracture model and appropriated criteria in a case of static and programmed low-cycle loading for plane stress state. There is developed method and software (based on finite element analysis) for predicting exploitation resource in consideration of dispersed fracture kinetics in details and construction elements.