Effect of intermartensite transformation on twinning stress in Ni-Mn-Ga 10 M martensite

Abstract

Intermartensite transformations (IMTs) and temperature dependence of very low twinning stress associated with Type II twin boundaries were studied experimentally in four magnetic shape memory alloys with composition Ni50Mn25 + xGa25 – x (at. %), where x was between 3.2 and 3.9. The slightly different x or Mn content resulted in slightly different martensite transformation temperatures between 309 and 328 K, but in significantly different intermartensite transformation temperatures between 10 K and 251 K, with the transformation temperature being approximately proportional to x. In all four alloys, the initial twinning stress, about 0.1 MPa at room temperature, increases sharply when approaching the IMT at lower temperatures, up to 1 MPa and more. The effect is explained by the instability of 10M martensite near the IMT from which it follows that the twinning stress dependence shall be flat for x≤2.7. That is experimentally confirmed by an additional measurement on Ni50Mn27.7Ga22.3 alloy (x = 2.7), which exhibits just slowly increasing twinning stress with decreasing temperature, with the maximum of only 0.2 MPa at 1.7 K.