An experiment involving the shear spinning process of a conical component fabricated from copper sheet C1100 on a CNC lathe has been investigated. Employing the Box-Behnken response surface planning method, the extent of wall thickness deviation and the mechanical characteristics of the resulting product have been systematically assessed. Specific technological parameters including mandrel revolution (rev/min), roller feed (mm/rev), and roller nose radius (mm) have been involved in this assessment. The obtained results revealed the influence of these technological parameters on both the degree of wall thickness deviation and the mechanical properties of the product. Consequently, this analysis facilitates the identification of an optimal operational mode aimed at minimizing wall thickness deviation and maximizing the mechanical properties of the produced component.