Experimental Characterization of Phase Transformation of Fe–15MN–10CR–8NI–4SI (WT. %) iron-based Shape Memory Functional Materials using Dilatometry
Shape memory alloys memorizetheir previous shape. They have revolutionized the material engineering science due to their shape memory effect and super-elasticity. They can restore their shape upon heating or by removing the load. Iron based shape memory alloys (Iron-SMAs) havepotential to be the counterpart of Nitinol. They have been used and found to be effective as these are less expensive comparing with Nitinol. Fe-Mn-Si based Iron-SMAs have a great interest in future applications. Transformation behaviour decides the environment where the real engineering application of shape memory alloy is. In this research, phase transformation of Fe-15Mn-10Cr-8Ni-4Si (wt. %) iron-based shape memory functional material has been experimentally investigated using dilatometry analysis.
Keywords - Phase transformation, dilatometry, Fe-Mn-Si alloy, SMA