This thesis is based on research in order to combine two of the newest methods of polishing and the forming of sheet metal parts. In this study, combining two new technologies in advanced manufacturing techniques in field of production and manufacturing system plus use of an advanced mechatronics systems with modern hardware components and software, introduced a new technology that the advantage of the magnetic abrasive particles and the gradual formation of the Computer Numerical Control Milling machine is used simultaneously. The advantage of this new technology is that does not require the polishing of production and no need for molds and tooling for production of single parts. The magnetic abrasive powder suitable for admission to the saturated mud in order to keep abrasive particles during operation and pay the necessary changes in various parameters of these methods Abrasives such as size, distance from the surface magnetic tool, magnetic tool rotational speed venire using experimental design, a variety of experiments designed and the appropriate values ??for these tests to achieve better results in the formation process and is presented. This polishing method also combines with the gradual formation of a new method for producing parts of the shell is using a rotating cylindrical brush that is used as a tool to shape the milling machine gradually and a thin sheet on a mandrel surface based on milling machine table is spread with Computer Numerical Control. In this method, the shear stress of tool with little vertical force on the spindle is inserted into the sheet Cause deformation of the sheet is formed. The polishing method could work with a magnetic field of the magnetic abrasive particles in a magnetic field and pulling the abrasive particles on the surface is used. And pay the operation and shaping will be done simultaneously. The pieces are made of and that pays well and has formed simultaneously. This method can be combined as one of the newest and most effective methods of production shell parts. Several experiments conducted in this research work have demonstrated the efficacy of this combination. Also adding to the processes and tooling accessories can improve the efficiency of this method. Increase in system performance, high frequency induction heating equipment, such as source and ultrasonic oscillator innovative systems have been added. Study results suggest that this innovation has had a major impact on improving processes. The analysis of finite elements methods properly match the data from experiments performed with the theoretical results obtained. keywords: CNC, CAD/CAM, MAF, ISMF, FEM.