Abstract
A methodic is developed for the probabilistic assessment of durability indicators of metallurgical equipment according to strength criteria based on microstructural modeling of the stressed state of the material, the distinctive feature of which is the ability to take into account its anisotropy and structural defects in the form of non-metallic inclusions or the consequences of poor-quality heat treatment. This methodic can be used to make a reasonable choice of material for parts when designing of the equipment or developing of the structure of repair cycles at the renovation stage for objects entered to service. Keywords:metallurgical equipment, durability, life, material, structure, modeling, stressed state m.slobodianskii@gmail.com
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