Dynamic constitutive model of titanium alloy Ti-6Al-4V for high speed cutting: a review

Abstract

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High speed cutting is an effective technique to achieve high efficiency and high quality machining of titanium alloy and other difficult materials. The high speed cutting process of titanium alloy has the nonlinear dynamic characteristics of high temperature, high strain and high strain rate. In order to accurately describe the dynamic mechanical behavior of titanium alloy in high speed cutting, the research on dynamic constitutive model of titanium alloy is reviewed. The application conditions, advantages and disadvantages of Johnson-Cook model, Zerilli-Armstrong model and Bammann model are analyzed from the perspective of phenomenological model and physical model with Ti-6Al-4V as the research object. After comprehensive comparison, the Johnson-Cook model is selected for further exploration, and the Johnson-Cook modified model is classified based on the influence of temperature and competition mechanism. The prediction accuracy of the Johnson-Cook modified model is improved compared with that of the classical model. At the same time, it is proposed that the construction of phenomenology-physics composite constitutive model can be taken as the key direction to explore the dynamic constitutive model of titanium alloy, and the method of experiment and computer synchronization can be used to obtain the optimal solution of constitutive model parameters, so as to improve the prediction accuracy of dynamic constitutive model.

Keywords

• high speed cutting
• titanium alloy ti-6al-4v
• dynamic constitutive model
• modified model