Knowing material properties is essential in the field of engineering. In combination with functional equations that describe the behavior of the materials under certain effects we can correctly plan responses of the studied engineering problems. This final thesis examines the pharmaceutical aluminum tubes' sealing. With the tensile test machine and the method of digital image correlation we performed tensile tests for the material that forms the tubes. Additionally, we obtained information about the response measurements of the samples. Those were the basis for the calculation of material properties needed for efficient description of the numerical model. Also, we performed mechanical dynamical analysis of the aluminum tubes’ sealing process where we checked the plastic deformation course, determined the sealing force and the effect of elastic straightening.