A model of a tool for machining cutting ceramics is proposed with an aim to provide a detailed analysis of its durability. The development of effective abrasive materials capable of operating under extreme conditions is discussed. The use of tools made from diamond-containing composite materials is necessitated by the exceptional hardness of diamonds. While many researchers have investigated finishing processes, the combination of vibrational and electromagnetic components to achieve a high-quality and productive lapping process for superhard ceramics has not been previously accomplished. The process of synthetic diamond manufacturing is described.