Nowadays, shape memory alloys based on copper are attracting a lot of attention. Due to their low cost, excellent mechanical stability, ease of fabrication through induction melting, and widespread availability, much research on shape-memory alloys has focused on Ni-based alloys across all classes. Adding manganese to copper-based shape memory alloys improves their performance, which in turn allows them to withstand higher working temperatures [8]. Therefore, this study aims to create a CuMn13Al 7 very high temperature SMA by enhancing the manganese content by meticulous research. We use XRD, DSC, and the Pseudo Elastic effect to analyze the test samples' structures. The two primary design parameters for the SMA application—the shape memory ratio and recoverable strains—are investigated. The form memory effect is introduced in this article. With its newly-developed shape memory alloy, actuators can withstand a great deal of heat and cold.