Significantly enhanced tensile strength and ductility in nickel aluminium bronze by equal channel angular pressing and subsequent heat treatment

Nickel aluminium bronze (NAB) was subjected to equal channel angular pressing (ECAP) at 400 A degrees C for up to 4 passes in routes BA and C, respectively, followed by isothermal heat treatment with a view to improving the kappa phase structures and tensile properties. The lamellar kappa III structure was completely broken after 4 passes in route BA although route C was less efficient. Spheroidisation and coarsening of the highly deformed kappa III continued during heat treatment especially at a parts per thousand yen600 A degrees C. At 800 A degrees C, both the lamellar structure and the fine kappa IV particles transformed completely into a coarse globular morphology with no distinction between the primary and eutectoid alpha. Significant increases in strength were achieved by ECAP, reaching a maximum yield strength of 960 MPa with a good ductility of similar to 14 %. Heat treatment after ECAP was shown to considerably improve tensile ductility to > 30 % while keeping the strength high at similar to 700 MPa, a significant enhancement compared to the as-received NAB.