Abstract

Dense and submicron-grained NiAl-Al2O3 composite was fabricated by pulse current auxiliary sintering (PCAS). Its microstructure was analyzed by XRD, SEM and TEM, and its mechanical behavior was evaluated through compression test and fracture toughness test. The average grain sizes of NiAl and Al2O3 are about 200 nm and 100 nm respectively. The Al2O3 particles dispersed in NiAl matrix, forming intergranular structure and intragranular structure. During sintering, Al2O3 particles were remarkably spherized due to the unique sintering mechanism of PCAS, which is beneficial to the improvement of toughness. The NiAl-Al2O3 composite exhibits high compressive yield strength, whether at room temperature or elevated temperature. Its room-temperature (23 °C) and elevated-temperature (1 200 °C) compressive yield strength are up to 2 050 MPa and 140 MPa, respectively. Meanwhile, its fracture toughness is significantly enhanced, which is up to 8.2 MPa/m1/2. It is suggested that the main strengthening-toughening mechanisms are grain refinement strengthening and Al2O3 dispersion strengthening. The fracture of larger NiAl grain is the transgranular cleavage and this is induced by crack tip deflection and grain boundary weakening which are caused by intergranular and intragranular Al2O3 particles, respectively.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call