%0 Journal Article %T Study of the effect of ECAPed Method on the Mechanical Properties of AA 5083: An Overview %J International Research Journal on Advanced Science Hub %I RSP Science Hub %Z 2582-4376 %A Singh, Nagendra %A Agrawal, Manoj Kumar %A Verma, Sanjeev Kumar %A Tiwari, Ashish Kumar %D 2022 %\ 06/28/2022 %V 4 %N 06 %P 186-191 %! Study of the effect of ECAPed Method on the Mechanical Properties of AA 5083: An Overview %K Aluminum alloy %K ECAP %K SPD %K Ultrafine grain %K jMechanical Properties %R 10.47392/irjash.2022.044 %X The geometrical structuring of a material to increase both physical and mechanical qualities is known as Severe plastic deformation (SPD). To obtain superior mechanical qualities, the co-channel angular plastic deformation (ECAP) approach, which is an alternative to conventional plastic deformation, is applied and developed. When compared to previous procedures, a substan- tially smaller grain size is obtained as a result of applying large unit defor- mation to the part in one go and rearrangement of dislocations. The method that has the most potential to find itself as a field of application today is ECAP, which of the extreme plastic processes is the most well-known, giving the com- bination of ductility and high strength, which is a rare attribute in materials. The effect of ECAP, a type of extreme deformation of plastic, on the mechanical characteristics of 5083 aluminium alloy was examined in this work. %U https://rspsciencehub.com/article_19124_b6be7cef112e8fe9648d93d470451cf0.pdf