In sheet metal forming,weight reduction of a formed part is one of the most serious problems,and this strongly requires the use of sheets that are as thin as possible. The forming limit in conventional deep drawing with rigid tools is qualified mainly by fracture at the punch profile por tion,which occurs in general when the ensile stress at the punch profile portion exceeds the ultimate tensile strength of the material. A new process of friction aided deep drawing has been developed, in which the friction force between the blank and the blank-holder is used to aid the drawing deformation of the blank .This has been achieved by using a divided blank-holder,which consists of four segments and can move radially under axial pressure The drawing process can be combined with a supplemental punch which gives a constant punch force during the drawing process. The aim of this research is simulation and analysis a new process by Finite Element and Slab and Energy Method for increasing limited drawing ratio . This work compare with lat work. The simulation and experimental resuls show thatthere is no fracture at the flange of deforme blank, wich is often observd i Maslennikov’s process at the end of this research , limited drawing reach to 3.8