This paper was envisioned as a collaboration with the company Yazaki Europe Limited, branch office Zagreb. The topic of the work is to perform experimental test of the polymer material polybutylene terephthalate (PBT) additionally reinforced with 30% glass fibers. Since the walls of electrical connectors, which are the main product of Yazaki Europe Limited, branch office Zagreb, often have a small wall thickness (less than 1 mm) and since glass fibers increase strength and stiffness, but have a negative effect on fragility, it is necessary to conduct research of the influence of wall thickness on mechanical properties of the specified polymer material. Material data that are used when performing computer analyses, such as stress at break and strain at break, were obtained by the manufacturer's laboratory testing. However, the manufacturer conducts laboratory tests on samples (tubes) with a thickness of 4 mm, which is significantly larger than the already mentioned products (connectors). In accordance with that, beginning of work is dedicated to description of mechanical properties and what influenced them the most. After that, the most applied methods of testing mechanical properties of materials, static tensile test and three point bending, are presented. All experimental tests were carried out with the competence and presence of an expert, and the procedure and analysis of the obtained results can be found in chapter 3. The mechanical properties calculated previously are also used in next chapter, which deals with the numerical calculation of three point bending test. The computer simulation was performed using the Abaqus® software package, which is based on the finite element method (FEM). The introductory part of the mentioned chapter is devoted to the general formulation of the finite element method, as well as its properties and application. Also, the finite elements that have been used in the numerical simulation are presented and described. Furthermore, the dimensions, material settings and boundary conditions of the numerical calculation and finally the graphic processing of the results are presented. In the last, fifth chapter, conclusions are drawn based on the presented results.