Abstract:The Ti-based amorphous alloy powders without or with 2% (volume fraction, %) B₄C were synthesized by mechanical alloying, and subsequently the powders were consolidated into crystallized Ti₇₀Nb_7.8Cu_8.4Ni_7.2Al_6.6 ultrafine/fine-grained composites without or with (TiB+TiC) phases by spark plasma sintering and crystallization of amorphous phase. The synthesized powders and the consolidated ultrafine/fine-grained composites were examined by X-ray diffractometry (XRD), differential scanning calorimetry (DSC), scanning electron microscopy (SEM) and universal materials tester. The results show that, after a milling time of 80 h, the synthesized powders consist of amorphous phase with predominant volume fraction. The addition of B₄C particles has an obvious impact on the glass transition temperature, crystallization temperature and crystallization enthalpy for the synthesized powders. In addition, the microhardnesses of the consolidated composites without or with 2% B₄C are 5.47 and 5.33 GPa, respectively. Meanwhile, the consolidated Ti₇₀Nb_7.8Cu_8.4Ni_7.2Al_6.6 composite by heating to 1 223 K at 50 K/min and holding for 10 min has a high fracture strength of 2 098 MPa and a fracture strain of 11.5%.

Key words: Ti-based composite; spark plasma sintering; mechanical alloying; crystallization