A Ti-Zr-Hf-Ni-Nb high-entropy shape memory alloy with an exceptional strength-ductility synergy for high-temperature application

A novel Ti_35.16Zr_5.86Hf_5.86Ni_46.87Nb_6.25 (at. %) high-entropy shape memory alloy (HESMA) is developed for applications in high-stress, high-temperature environments. This alloy consists of B19’ martensitic laths with minor β-Nb and Ti₂Ni particles along grain boundaries. It demonstrates an exceptional strength-ductility synergy, a relatively-high martensitic transformation start temperature (<i>M</i>_s = 392 K), and outstanding shape memory property with maximum recoverable strain (<i>ϵ</i>_mre = 1.94%) under 550 MPa. This combination of characteristics successfully overcomes the traditional trade-off among <i>M</i>_s, strength-ductility, and shape memory effect. Moreover, the thermal-induced transformation behavior is systematically investigated. This work establishes a paradigm for developing high-performance high-temperature HESMAs.