The paper presents an experimental and theoretical analysis of tube inversion process under quasi-static and dynamic loading conditions. The aim of the work is to propose a method of predicting the dynamic inversion load based on the quasi-static data. The method employs the principle of conservation of energy of the body in collision which is totally dissipated through plastic deformation of the tube under an inversion process. A dynamic inversion test was performed by means of drop hammer against the tube-die assembly. The hammer was coupled to an accelerometer to permit dynamic load readings. The results demonstrated that for a given impact velocity, the axial shortening as well as the dynamic inversion load compare very well to those predicted from the theoretical quasi-static results. The quasi-static and dynamic experiments were carried out on copper and brass tubes. Different inversion die radii were also used. In addition other relevant parameters will be discussed.