Analysis Method of Maximum Shape Variability in Preventing Failure of Key Components of Mining Equipment
Mining equipment often faces various challenges in complex working environments,among which the failure of key components is an important factor affecting equipment performance and safety.Finite element analysis,as a commonly used mathematical simulation method in the engineering field,can virtually reconstruct the actual equipment working conditions underground.This article uses ANSYS Workbench finite element analysis software and takes the cantilever longitudinal axis tunneling machine rotary table as an example.By establishing an accurate finite element digital model,the stress situation of the key load-bearing component rotary table of the tunneling machine during cutting in coal and rock masses is analyzed and compared.The deformation position was found,providing theoretical basis for subsequent daily maintenance,predicting and preventing potential failure risks.
finite element analysismining equipmentkey componentsshape variability
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