Modeling Of Maximum Spread Variation Of Workpiece Under High Speed Deformation In Rod Rolling Process

摘要

A maximum spread model dependent on rolling speed is proposed for rod rolling process following the analysis of deformation behavior of steel under compression and four-pass continuous high speed rod rolling test. Results reveal that amount of spread depends on a region which restricts plastic flow of workpiece during deformation. Increasing rolling speed (strain rate) leads to decrement of friction coefficient and, in turn, enlarge deformation-restricted region in the workpiece and consequently reduce amount of spread during deformation. Hence, the rolling speed dependent spread model could be expressed in terms of flow stress, which is a function of strain, strain rate and temperature and finally the model is proposed in a concise form.