Investigation on monotonic and cyclic stress-strain characteristics of Ti-2Al-2.5Zr alloy

The monotonic and cyclic deforming regularity of Ti-2Al-2.5Zr alloy rod, tube and profiled tube (PT) specimen was determined at room temperature (RT). The effects of tension speed, V, cycle number, N, strain ratio, R, strain amplitude, ε_a and specimen shape on tensile and cyclic deforming behavior and characteristics were analyzed. The stress-strain relation equations under monotonic and cyclic loading, and the fatigue life prediction equations of Ti-2Al-2.5Zr alloy were established. The structure and fracture were also observed with optical and scanning electron microscope (OM, SEM). The tensile properties of Ti-2Al-2.5Zr alloy are related with V and specimen shape. At R=0.1, the cyclic stress-strain curves of tube and rod appear as cyclic softening. But the rod (at R=-l) and PT (at R=0) behave as cyclic softening at low ε_a value (≤9.0%), whereas they appear as cyclic hardening at high ε_a value (>2.0%). The fatigue life of Ti-2Al-2.5Zr alloy determined with tube is lower than that with rod. The twinning is closely related to ε_a, N value, etc. The tensile fractures show typical dimple features. There are many irregular crystalline convexes in fatigue fractures where many secondary cracks, fatigue striations and holes also exist.