In this study, the influence of the impulse electron-beam (IEB) technology on the physical and mechanical properties of the TNZT titanium alloy samples obtained by the electron beam melting (EBM) is evaluated. The roughness, hardness and Young's modulus were measured, and the microstructure of the sample surface was investigated. The highest roughness was observed for an untreated titanium alloy. It was revealed that the Young's modulus value of the TNZT alloy treated with IEB (65 GPa) investigated using the nanoindentation method is higher than the modulus of human bone (10-30 GPa), but nevertheless, it is 2 times lower than that of the biomedical Ti6Al4V alloy.