The purpose of the paper is to identify the limitations when selecting materials for the production of coaxial radio component parts for ultra-high-frequency microelectronics, to reveal the features and problems in their manufacturing, to study the methods used to solve the problem of burr formation and removal, to choose promising deburring methods for experiment setting and evaluation of their effectiveness. The article describes the features of the manufacturing technology of radio component parts for ultra-high-frequency electronics, gives part assortment classification by geometry and used materials for the selection of a deburring method. It also describes and compares the application results of proven deburring methods on parts made from 29NK (29НК) and beryllium bronze on longitudinal turning machines. Promising deburring methods are selected for further research. High-quality deburring of parts made of 29NK and beryllium bronze materials and having no hard-to-reach surfaces on longitudinal turning machines is achieved by using "tumbling with the selected abrasive medium". High-quality deburring of parts made of 29NK and beryllium bronze materials and having hard-to-reach surfaces (slots, pockets, side holes, grooves, threads, etc.) on longitudinal turning machines can be performed through the use of a cleaning robot installed on each machine-tool, tumbling with abrasive medium selection followed by manual benchworking, thermal removal of burrs, and for 29NK material - by orderly changing of the selected cutting tool for finishing treatment. The following promising methods including benchwork automation with the use of a robot, thermal deburring, selection of tools and processing modes for each type of material taking into account the design of parts have not been sufficiently studied.